# ![@pkdas007 Avatar](https://lunarcrush.com/gi/w:26/cr:youtube::UCE7knjtf06Aar0EE9Qw7KPw.png) @pkdas007 PKD Learning Zone

PKD Learning Zone posts on YouTube about youtube, channel, if you, kindly the most. They currently have [---] followers and [---] posts still getting attention that total [---] engagements in the last [--] hours.

### Engagements: [---] [#](/creator/youtube::UCE7knjtf06Aar0EE9Qw7KPw/interactions)
![Engagements Line Chart](https://lunarcrush.com/gi/w:600/cr:youtube::UCE7knjtf06Aar0EE9Qw7KPw/c:line/m:interactions.svg)

- [--] Week [---] +554%
- [--] Month [---] +344%
- [--] Months [-----] +43%
- [--] Year [-----] +410%

### Mentions: [--] [#](/creator/youtube::UCE7knjtf06Aar0EE9Qw7KPw/posts_active)
![Mentions Line Chart](https://lunarcrush.com/gi/w:600/cr:youtube::UCE7knjtf06Aar0EE9Qw7KPw/c:line/m:posts_active.svg)

- [--] Months [--] -24%
- [--] Year [---] +2,933%

### Followers: [---] [#](/creator/youtube::UCE7knjtf06Aar0EE9Qw7KPw/followers)
![Followers Line Chart](https://lunarcrush.com/gi/w:600/cr:youtube::UCE7knjtf06Aar0EE9Qw7KPw/c:line/m:followers.svg)

- [--] Week [---] +2.10%
- [--] Month [---] +8.80%
- [--] Months [---] +84%
- [--] Year [---] +593%

### CreatorRank: undefined [#](/creator/youtube::UCE7knjtf06Aar0EE9Qw7KPw/influencer_rank)
![CreatorRank Line Chart](https://lunarcrush.com/gi/w:600/cr:youtube::UCE7knjtf06Aar0EE9Qw7KPw/c:line/m:influencer_rank.svg)

### Social Influence

**Social category influence**
[technology brands](/list/technology-brands)  [social networks](/list/social-networks)  [currencies](/list/currencies)  [finance](/list/finance)  [nfl](/list/nfl) 

**Social topic influence**
[youtube](/topic/youtube), [channel](/topic/channel), [if you](/topic/if-you), [kindly](/topic/kindly), [doubt](/topic/doubt), [icon](/topic/icon), [speed](/topic/speed), [head of](/topic/head-of), [flow](/topic/flow), [water](/topic/water)

**Top assets mentioned**
[Reynolds Consumer Products Inc. (REYN)](/topic/$reyn) [Fluid (FLUID)](/topic/fluid)
### Top Social Posts
Top posts by engagements in the last [--] hours

"Lecture [--] Problem Solved on Single acting Reciprocating Pump #Hydraulic #Machine Join this channel to get access to perks: https://www.youtube.com/channel/UCE7knjtf06Aar0EE9Qw7KPw/join In this lecture the following points are discussed: Problem Solved on Single acting Reciprocating Pump #Hydraulic #Machine Problem 1: A single acting reciprocating pump running at [--] rpm delivers [----] m3/s of water. The diameter of the piston is [---] mm and stroke length [---] mm. Determine the theoretical discharge of the pump coefficient of discharge slip and the percentage slip of the pump. If any doubt"  
[YouTube Link](https://youtube.com/watch?v=95rIEH8RT3U)  2026-02-14T03:51Z [---] followers, [--] engagements


"Lecture [--] Problem Solved on Double acting Reciprocating Pump #Hydraulic #Machine Join this channel to get access to perks: https://www.youtube.com/channel/UCE7knjtf06Aar0EE9Qw7KPw/join In this lecture the following points are discussed: Problem Solved on Double acting Reciprocating Pump #Hydraulic #Machine Problem 1: A double acting reciprocating pump running at [--] rpm is discharging [---] m/minute. The pump has a stroke of [---] mm. The diameter of the piston is [---] mm. The delivery and suction heads are [--] m and [--] m respectively. Find: the slip of the pump and power required to drive the pump."  
[YouTube Link](https://youtube.com/watch?v=ZmRtM4OTP_4)  2026-02-15T15:57Z [---] followers, [--] engagements


"Lecture [--] Variation of Velocity & Acceleration in the Suction & Delivery Pipes due to Acceleration Join this channel to get access to perks: https://www.youtube.com/channel/UCE7knjtf06Aar0EE9Qw7KPw/join In this lecture the following points are discussed: Variation of Velocity & Acceleration in the Suction & Delivery Pipes due to Acceleration #Hydraulic #Machines If any doubt related to this lecture kindly give #Comment If you want more videos related to #Hydraulic #Machines then #Subscribe the channel & Press #Bell Icon for more updates #Share this lecture and channel to your friends"  
[YouTube Link](https://youtube.com/watch?v=wYo6IoiTf5M)  2026-02-16T09:50Z [---] followers, [--] engagements


"Lecture [--] Force exerted by jet on the curved plate when the plate is moving in the direction of jet In this lecture the following points are discussed: Impact of Jets Force exerted by the jet on the curved plate when the plate is moving in the direction of jet #Hydraulic #Machines If any doubt related to this lecture kindly give #Comment If you want more videos related to #Hydraulic #Machines then #Subscribe the channel for more updates"  
[YouTube Link](https://youtube.com/watch?v=-ljq-isyOkk)  2025-11-07T04:09Z [---] followers, [--] engagements


"Lecture [--] Work done by the Centrifugal Pump on the water #Hydraulic #Machines Join this channel to get access to perks: https://www.youtube.com/channel/UCE7knjtf06Aar0EE9Qw7KPw/join In this lecture the following points are discussed: Work done by the Centrifugal Pump on the water #Hydraulic #Machines If any doubt related to this lecture kindly give #Comment If you want more videos related to #Hydraulic #Machines then #Subscribe the channel and Press the #Bell Icon for more updates #Share this lecture and channel to your friends"  
[YouTube Link](https://youtube.com/watch?v=1ivhKJQKAoQ)  2026-01-19T12:08Z [---] followers, [--] engagements


"Lecture [--] Problem Solved on Unit Quantities Speed Discharge Power #Hydraulic #Machine Join this channel to get access to perks: https://www.youtube.com/channel/UCE7knjtf06Aar0EE9Qw7KPw/join In this lecture the following points are discussed: Problem Solved on Unit Quantities Speed Discharge Power #Hydraulic #Machine Problem 1: A Pelton wheel is revolving at a speed of [---] r.p.m. and develops [-------] kW when working under a head of [---] m with an overall efficiency of 80%. Determine unit speed unit discharge and unit power. The speed ratio for the turbine is given as [----]. Find the speed"  
[YouTube Link](https://youtube.com/watch?v=2G_9RmBc1rY)  2025-12-23T08:14Z [---] followers, [--] engagements


"Lecture [--] Axial Flow Reaction Turbine (Kaplan Turbine) Applications Advantages and Disadvantages Join this channel to get access to perks: https://www.youtube.com/channel/UCE7knjtf06Aar0EE9Qw7KPw/join In this lecture the following points are discussed: Axial Flow Reaction Turbine (Kaplan Turbine) Applications Advantages and Disadvantages #Hydraulic #Machines If any doubt related to this lecture kindly give #Comment If you want more videos related to #Hydraulic #Machines then #Subscribe the channel and Press the #Bell Icon for more updates #Share this lecture and channel to your friends"  
[YouTube Link](https://youtube.com/watch?v=3BonffT8NNo)  2025-12-14T06:02Z [---] followers, [--] engagements


"Lecture [--] Problem solved on force exerted by the jet on a stationary curved plate at the center In this lecture the following points are discussed: Problem solved on force exerted by the jet on a stationary curved plate at the center #Hydraulic #Machine Problem 1: A jet of water of diameter [--] mm moving with a velocity of [--] m/sec strikes a curved fixed symmetrical plate at the center. Find the force exerted by the jet of water in the direction of jet if the jet is deflected through an angle of [---] at the outlet of the curved plate. If any doubt related to this lecture kindly give #Comment &"  
[YouTube Link](https://youtube.com/watch?v=4SheWKOtihk)  2025-10-31T06:07Z [---] followers, [--] engagements


"Lecture [--] Efficiency of Pelton Wheel (Turbine) #Hydraulic #Machines In this lecture the following points are discussed: Efficiency of Pelton Wheel (Turbine) #Hydraulic #Machines If any doubt related to this lecture kindly give #Comment If you want more videos related to #Hydraulic #Machines then #Subscribe the channel for more updates"  
[YouTube Link](https://youtube.com/watch?v=5L1uFfblayE)  2025-12-02T03:48Z [---] followers, [--] engagements


"Lecture [--] Classification or Different types of Hydraulic Turbines #Hydraulic #Machines In this lecture the following points are discussed: Classification or Different types of Hydraulic Turbines #Hydraulic #Machines If any doubt related to this lecture kindly give #Comment If you want more videos related to #Hydraulic #Machines then #Subscribe the channel for more updates"  
[YouTube Link](https://youtube.com/watch?v=5VKytJbxtb0)  2025-11-29T03:48Z [---] followers, [--] engagements


"Lecture [--] Problem Solved on Minimum Speed of Centrifugal Pump #Hydraulic #Machine Join this channel to get access to perks: https://www.youtube.com/channel/UCE7knjtf06Aar0EE9Qw7KPw/join In this lecture the following points are discussed: Problem Solved on Minimum Speed of Centrifugal Pump #Hydraulic #Machine Problem 1: A centrifugal pump with [---] m diameter runs at [---] r.p.m. and discharges [----] liters per second the average lift being [--] m. The angle which the vanes make at exit with the tangent to the impeller is [--] and the radial velocity of flow is [---] m/s. The inner diameter of the"  
[YouTube Link](https://youtube.com/watch?v=5l3zu6JE7y0)  2026-01-24T12:12Z [---] followers, [--] engagements


"Lecture [--] Inward Radial Flow Reaction Turbine Francis Turbine Application #Hydraulic #Machines Join this channel to get access to perks: https://www.youtube.com/channel/UCE7knjtf06Aar0EE9Qw7KPw/join In this lecture the following points are discussed: Inward Radial Flow Reaction Turbine Francis Turbine Application #Hydraulic #Machines If any doubt related to this lecture kindly give #Comment If you want more videos related to #Hydraulic #Machines then #Subscribe the channel and Press the #Bell Icon the channel for more updates #Share this lecture and channel to your friends"  
[YouTube Link](https://youtube.com/watch?v=8TEKX-Gkz4c)  2025-12-07T07:50Z [---] followers, [--] engagements


"Lecture [--] Velocity Triangles & Work Done on Inward Radial Flow Reaction Turbine #Hydraulic Machines Join this channel to get access to perks: https://www.youtube.com/channel/UCE7knjtf06Aar0EE9Qw7KPw/join In this lecture the following points are discussed: Velocity Triangles & Work Done on Inward Radial Flow Reaction Turbine #Hydraulic #Machines If any doubt related to this lecture kindly give #Comment If you want more videos related to #Hydraulic #Machines then #Subscribe the channel and Press the #Bell Icon the channel for more updates #Share this lecture and channel to your friends"  
[YouTube Link](https://youtube.com/watch?v=99FGD--sSRU)  2025-12-08T03:40Z [---] followers, [--] engagements


"Lecture [--] Unit Quantities Unit Speed Unit Discharge Unit Power of Turbine #Hydraulic #Machines Join this channel to get access to perks: https://www.youtube.com/channel/UCE7knjtf06Aar0EE9Qw7KPw/join In this lecture the following points are discussed: Unit Quantities Unit Speed Unit Discharge Unit Power of Turbine #Hydraulic #Machines If any doubt related to this lecture kindly give #Comment If you want more videos related to #Hydraulic #Machines then #Subscribe the channel and Press the #Bell Icon for more updates #Share this lecture and channel to your friends"  
[YouTube Link](https://youtube.com/watch?v=BR2BRS6WKFE)  2025-12-22T08:54Z [---] followers, [--] engagements


"Lecture [--] Terminology used in Francis Turbine/Working Proportion & Design of Francis Turbine Runner Join this channel to get access to perks: https://www.youtube.com/channel/UCE7knjtf06Aar0EE9Qw7KPw/join In this lecture the following points are discussed: Terminology used in Francis Turbine/Working Proportion & Design of Francis Turbine Runner #Hydraulic #Machines If any doubt related to this lecture kindly give a #Comment If you want more videos related to #Hydraulic #Machines then #Subscribe the channel and Press the #Bell Icon the channel for more updates #Share the lecture and channel to"  
[YouTube Link](https://youtube.com/watch?v=CPDAvDqabbM)  2025-12-09T04:26Z [---] followers, [--] engagements


"Lecture [--] Problem Solved on Specific Speed of Turbine #Hydraulic #Machine Join this channel to get access to perks: https://www.youtube.com/channel/UCE7knjtf06Aar0EE9Qw7KPw/join In this lecture the following points are discussed: Problem Solved on Specific Speed of Turbine #Hydraulic #Machine Problem 1: A Pelton wheel develops8000kW under a net head of130m at a speed of200rpm. Assuming the co-efficient of velocity for the nozzle0.98hydraulic efficiency87%speed ratio 0.46and jet diameter to wheel diameter ratio1/9determine: the discharge required the diameter of the wheel the diameter and"  
[YouTube Link](https://youtube.com/watch?v=DJJAS8D0GYo)  2025-12-21T09:24Z [---] followers, [--] engagements


"Lecture [--] Problem Solved on Design of Pelton Wheel [--] #Hydraulic #Machine Join this channel to get access to perks: https://www.youtube.com/channel/UCE7knjtf06Aar0EE9Qw7KPw/join In this lecture the following points are discussed: Problem Solved on Design of Pelton Wheel #Hydraulic #Machine Problem 1: A Pelton wheel is to be designed for a head of [--] m when running at [---] r.p.m. The Pelton wheel develops [-------] KW shaft power. The velocity of the buckets = [----] times the velocity of the jet overall efficiency = [----] and coefficient of the velocity is equal to [----]. If any doubt related to"  
[YouTube Link](https://youtube.com/watch?v=DQPePsJNBxU)  2025-12-06T04:29Z [---] followers, [--] engagements


"Lecture [--] General Layout of Hydroelectric Power Plant: It's Application Advantages & Disadvantages In this lecture the following points are discussed: General Layout of Hydroelectric Power Plant: It's Application Advantages & Disadvantages #Hydraulic #Machines If any doubt related to this lecture kindly give #Comment If you want more videos related to #Hydraulic #Machines then #Subscribe the channel for more updates"  
[YouTube Link](https://youtube.com/watch?v=Dm2mfA137to)  2025-11-26T03:30Z [---] followers, [--] engagements


"Lecture [--] Problem Solved on Jet Propulsion of ships for two different conditions #Hydraulic Machine In this lecture the following points are discussed: Problem Solved on Jet Propulsion of ships for two different conditions: Inlet orifices face the direction of motion of ship & Jet Propulsion of Ships inlet orifices are right angles to the motion of ship #Hydraulic #Machine Problem 1: A jet propelled ship is moving with a speed of [--] km/hr in sea water. The absolute velocity of jets is [---] m/s. The resistance to the motion of the ship is [--] kN. If the efficiency of the pump which drives the"  
[YouTube Link](https://youtube.com/watch?v=G8ArV0THU4M)  2025-11-25T03:33Z [---] followers, [--] engagements


"Lecture [--] Problem solved on Force on the curved plate when plate is moving in the direction of jet In this lecture the following points are discussed: Problem solved on Force on the curved plate when plate is moving in the direction of jet Impact of Jet #Hydraulic #Machine Problem 1: A jet of water of diameter [---] cm strikes a curved plate at its centre with a velocity of [--] m/s. The curved plate is moving with a velocity of [--] m/s in the direction of the jet. The jet is deflected through an angle of [---]. By assuming the plate as smooth. Find the (i) Force exerted on the plate in the"  
[YouTube Link](https://youtube.com/watch?v=Hliwqw49-Gg)  2025-11-08T03:38Z [---] followers, [--] engagements


"Lecture [--] Force by jet on unsymmetrical moving curved plate strikes tangentially at one of the tip In this lecture the following points are discussed: Impact of Jets Force exerted by a jet on an unsymmetrical moving curved plate when jet strikes tangentially at one of the tip #Hydraulic #Machines If any doubt related to this lecture kindly give #Comment If you want more videos related to #Hydraulic #Machines then #Subscribe the channel for more updates"  
[YouTube Link](https://youtube.com/watch?v=P_Hb1r01u2Q)  2025-11-10T03:35Z [---] followers, [--] engagements


"Lecture [--] Operating Characteristics Curves of Hydraulic Turbines or Constant Speed Curves Join this channel to get access to perks: https://www.youtube.com/channel/UCE7knjtf06Aar0EE9Qw7KPw/join In this lecture the following points are discussed: Operating Characteristics Curves of Hydraulic Turbines or Constant Speed Curves #Hydraulic #Machines If any doubt related to this lecture kindly give #Comment If you want more videos related to #Hydraulic #Machines then #Subscribe the channel and Press the #Bell Icon for more updates #Share this lecture and channel to your friends"  
[YouTube Link](https://youtube.com/watch?v=QErtQvZY_WI)  2025-12-29T10:07Z [---] followers, [--] engagements


"Lecture [--] #Impact of Jets #Why to study impact of jets #Impact of jets on plates In this lecture the following points are discussed: #Impact of Jets #Why to study impact of jets #Impact of jets on plates If any doubt related to this lecture kindly give #Comment If you want more videos related to #Hydraulic #Machines then #Subscribe the channel for more updates"  
[YouTube Link](https://youtube.com/watch?v=Sg_V8qEWP1g)  2025-10-25T12:11Z [---] followers, [--] engagements


"Lecture [--] Problem Solved on Design of Pelton Wheel #Hydraulic #Machine Join this channel to get access to perks: https://www.youtube.com/channel/UCE7knjtf06Aar0EE9Qw7KPw/join In this lecture the following points are discussed: Problem Solved on Design of Pelton Wheel #Hydraulic #Machine Problem 1: A Pelton wheel is to the designed for the following specifications: Shaft power = [-----] kW Head [---] m Speed (N) = [---] r.p.m. Overall efficiency = 86% Jet diameter is not to exceed one sixth of the wheel diameter. Determine: wheel diameter number of jets required diameter of the jet. Take Kvl ="  
[YouTube Link](https://youtube.com/watch?v=T9BGQzsJITE)  2025-12-05T04:09Z [---] followers, [--] engagements


"Lecture [--] Multistage Centrifugal Pump Type Application Advantage Disadvantage #Hydraulic #Machine Join this channel to get access to perks: https://www.youtube.com/channel/UCE7knjtf06Aar0EE9Qw7KPw/join In this lecture the following points are discussed: Multistage Centrifugal Pump Type Application Advantage Disadvantage #Hydraulic #Machines If any doubt related to this lecture kindly give #Comment If you want more videos related to #Hydraulic #Machines then #Subscribe the channel and Press the #Bell Icon for more updates #Share this lecture and channel to your friends"  
[YouTube Link](https://youtube.com/watch?v=TxQ8baXtfyI)  2026-01-25T08:40Z [---] followers, [--] engagements


"Lecture [--] Muschel Curves Constant Efficiency Curves Iso Efficiency Curves of #Hydraulic #Turbines Join this channel to get access to perks: https://www.youtube.com/channel/UCE7knjtf06Aar0EE9Qw7KPw/join In this lecture the following points are discussed: Muschel Curves Constant Efficiency Curves Iso Efficiency Curves of Hydraulic Turbines #Hydraulic #Machines If any doubt related to this lecture kindly give #Comment If you want more videos related to #Hydraulic #Machines then #Subscribe the channel and Press the #Bell Icon for more updates #Share this lecture and channel to your friends"  
[YouTube Link](https://youtube.com/watch?v=U9951UM9Mkk)  2026-01-03T12:12Z [---] followers, [--] engagements


"Lecture [--] Problem Solved on Kaplan Turbine #Hydraulic #Machine Join this channel to get access to perks: https://www.youtube.com/channel/UCE7knjtf06Aar0EE9Qw7KPw/join In this lecture the following points are discussed: Problem Solved on Kaplan Turbine #Hydraulic #Machine Problem 1: A Kaplan Turbine working under a head of [--] m develops [-----] KW shaft Power. The outer diameter of the runner is [---] m and hub diameter is [----] m. The Guide blade angle at the extreme edge of the runner is [--]. The hydraulic and overall efficiencies of the turbines are 88% and 84% respectively. If the velocity of"  
[YouTube Link](https://youtube.com/watch?v=Udd11YX4nRs)  2025-12-16T06:07Z [---] followers, [--] engagements


"Lecture [--] Force exerted by the jet on a stationary curved plate at the center #Hydraulic #Machines In this lecture the following points are discussed: Impact of Jets Force exerted by the jet on a stationary curved plate at the center #Hydraulic #Machines If any doubt related to this lecture kindly give #Comment If you want more videos related to #Hydraulic #Machines then #Subscribe the channel for more updates"  
[YouTube Link](https://youtube.com/watch?v=VpVNbtXyv6c)  2025-10-30T03:44Z [---] followers, [--] engagements


"Lecture [--] Draft Tube theory and its Efficiency #Hydraulic #Machines Join this channel to get access to perks: https://www.youtube.com/channel/UCE7knjtf06Aar0EE9Qw7KPw/join In this lecture the following points are discussed: Draft Tube theory and its Efficiency #Hydraulic #Machines If any doubt related to this lecture kindly give #Comment If you want more videos related to #Hydraulic #Machines then #Subscribe the channel and Press the #Bell Icon for more updates #Share this lecture and channel to your friends"  
[YouTube Link](https://youtube.com/watch?v=W_4yEkU_QUg)  2025-12-18T03:22Z [---] followers, [--] engagements


"Lecture [--] Problem on force exerted by the jet on the inclined plate moving in the direction of jet In this lecture the following points are discussed: Problem on force exerted by the jet on the inclined plate moving in the direction of jet Impact of Jet #Hydraulic #Machine Problem 1: A [---] cm diameter jet having a velocity of [--] m/s strikes a flat plate the normal of which is inclined at [--] to the axis of the jet. Find the normal pressure on the plate: (i) when the plate is stationary and (ii) when the plate is moving with a velocity of [--] m/s and away from the jet. Also determine the power"  
[YouTube Link](https://youtube.com/watch?v=Y25FjCWriI4)  2025-11-06T03:44Z [---] followers, [--] engagements


"Lecture [--] Force exerted by jet on a fixed curved plate at one end tangentially Plate is Symmetrical In this lecture the following points are discussed: Impact of Jets Force exerted by the jet on a stationary curved plate at one end tangentially when the plate is symmetrical #Hydraulic #Machines If any doubt related to this lecture kindly give #Comment If you want more videos related to #Hydraulic #Machines then #Subscribe the channel for more updates"  
[YouTube Link](https://youtube.com/watch?v=YHHXxYI30Fk)  2025-11-01T03:29Z [---] followers, [--] engagements


"Lecture [--] Force exerted by the jet on inclined plate moving in the direction of jet Impact of Jets In this lecture the following points are discussed: Impact of Jets Force exerted by the jet on the inclined plate moving in the direction of jet #Hydraulic #Machines If any doubt related to this lecture kindly give #Comment If you want more videos related to #Hydraulic #Machines then #Subscribe the channel for more updates"  
[YouTube Link](https://youtube.com/watch?v=Ycr1syvq6UY)  2025-11-05T03:42Z [---] followers, [--] engagements


"Lecture [--] Problem solved on Jet Propulsion of a Tank with an Orifice #Hydraulic #Machine In this lecture the following points are discussed: Problem solved on Jet Propulsion of a Tank with an Orifice #Hydraulic #Machine Problem 1: The head of water from the centre of orifice which is fitted to one side of the tank is maintained at 2m of water. The tank is not allowed to move and the diameter of orifice is [---] mm. Find the i) force exerted by the jet of water on the tank consider Cv = [----]. If the tank is fitted with frictionless wheels and allowed to move then determine ii) Propelling force"  
[YouTube Link](https://youtube.com/watch?v=a-SFaboh2YY)  2025-11-20T03:46Z [---] followers, [--] engagements


"Lecture [--] Problem Solved on Reaction turbine #Hydraulic #Machine Join this channel to get access to perks: https://www.youtube.com/channel/UCE7knjtf06Aar0EE9Qw7KPw/join In this lecture the following points are discussed: Problem Solved on Reaction turbine #Hydraulic #Machine Problem 1: A reaction turbine works at [---] r.p.m. under a head of [---] metres. Its diameter at inlet is [---] cm and the flow area is [---] m. The angles made by absolute and relative velocities at inlet are [--] and [--] respectively with the tangential velocity. Determine: (a) The volume flow rate (b) The power developed and"  
[YouTube Link](https://youtube.com/watch?v=cfu9ek08eCM)  2025-12-10T04:21Z [---] followers, [--] engagements


"Lecture [--] Problem Solved on Centrifugal Pump1 #Hydraulic #Machine Join this channel to get access to perks: https://www.youtube.com/channel/UCE7knjtf06Aar0EE9Qw7KPw/join In this lecture the following points are discussed: Problem Solved on Centrifugal Pump1 #Hydraulic #Machine Problem 1: A centrifugal pump is having outer diameter equal to two times the inner diameter and running at [----] r.p.m. works against a total head of [--] m. The velocity of flow through the impeller is constant and equal to [---] m/s. The vanes are set back at an angle of [--] at outlet. If the outer diameter of the"  
[YouTube Link](https://youtube.com/watch?v=cyXir-MZjI8)  2026-01-22T11:38Z [---] followers, [--] engagements


"Lecture [--] Force exerted by jet on flat vertical plate moving in the direction of jet Impact of Jet In this lecture the following points are discussed: Impact of Jets Force exerted by the jet on the flat vertical plate moving in the direction of jet #Hydraulic #Machines If any doubt related to this lecture kindly give #Comment If you want more videos related to #Hydraulic #Machines then #Subscribe the channel for more updates"  
[YouTube Link](https://youtube.com/watch?v=d9dYsh4HCL4)  2025-11-03T03:31Z [---] followers, [--] engagements


"Lecture [--] Problem Solved on Francis turbine #Hydraulic #Machine Join this channel to get access to perks: https://www.youtube.com/channel/UCE7knjtf06Aar0EE9Qw7KPw/join In this lecture the following points are discussed: Problem Solved on Francis turbine #Hydraulic #Machine Problem 1: A Francis turbine with an overall efficiency of 75% is required to produce [------] kW power. It is working under a head of [----] m. The peripheral velocity = [-----] and the radial velocity of flow at inlet is [----] [--]. The wheel runs at [---] r.p.m. and the hydraulic losses in the turbine are [--] % of the available"  
[YouTube Link](https://youtube.com/watch?v=dHi8PZui7dE)  2025-12-11T03:38Z [---] followers, [--] engagements


"Lecture [--] Outward Radial Flow Reaction Turbine Comparison of Outward and Inward Reaction Turbine Join this channel to get access to perks: https://www.youtube.com/channel/UCE7knjtf06Aar0EE9Qw7KPw/join In this lecture the following points are discussed: Outward Radial Flow Reaction Turbine Comparison of Outward and Inward Reaction Turbine #Hydraulic #Machines If any doubt related to this lecture kindly give #Comment If you want more videos related to #Hydraulic #Machines then #Subscribe the channel and Press the #Bell Icon for more updates #Share this lecture and channel to your friends"  
[YouTube Link](https://youtube.com/watch?v=f4LFzQuUwLE)  2025-12-12T03:54Z [---] followers, [--] engagements


"Lecture [--] Problem Solved on Centrifugal Pump #Hydraulic #Machine Join this channel to get access to perks: https://www.youtube.com/channel/UCE7knjtf06Aar0EE9Qw7KPw/join In this lecture the following points are discussed: Problem Solved on Centrifugal Pump #Hydraulic #Machine Problem 1: The internal and external diameters of the impeller of a centrifugal pump are [---] mm and [---] mm respectively. The pump runs at [----] rpm. The blade angles of the impeller at inlet and outlet are [--] and [--] respectively. Water enters the impeller radially and velocity of flow is constant. Determine the work done"  
[YouTube Link](https://youtube.com/watch?v=gy0CqH4k4W4)  2026-01-21T11:23Z [---] followers, [--] engagements


"Lecture [--] Problem Solved on Outward Radial Flow Turbine #Hydraulic #Machine Join this channel to get access to perks: https://www.youtube.com/channel/UCE7knjtf06Aar0EE9Qw7KPw/join In this lecture the following points are discussed: Problem Solved on Outward Radial Flow Turbine #Hydraulic #Machine Problem 1: In an outward flow reaction turbine the internal and external diameters are [--] m and [---] m respectively. The turbine is running at [---] r.p.m. and the rate of flow of water through the turbine is [--] m3/s. The width of the runner is constant at the inlet and outlet and equal to [---] mm. The"  
[YouTube Link](https://youtube.com/watch?v=hw1Oymqcn_U)  2025-12-13T03:41Z [---] followers, [--] engagements


"Lecture [--] Problem force on stationary curved plate at one end tangentially plate is unsymmetrical In this lecture the following points are discussed: Problem solved on force exerted by the jet on a stationary curved plate at the center #Hydraulic #Machine Problem 1: A jet of water of diameter [--] mm moving with a velocity of [--] m/s strikes a curved fixed plate at one end at an angle of [--] to the horizontal. The jet leaves the plate at an angle of [--] to the horizontal. Find the force exerted by the jet on the plate in the horizontal and vertical directions. If any doubt related to this lecture"  
[YouTube Link](https://youtube.com/watch?v=llIUtt_Chu8)  2025-11-02T08:45Z [---] followers, [--] engagements


"Lecture [--] Characteristic Curves of Hydraulic Turbine & Main Characteristic Curves or Constant Head Join this channel to get access to perks: https://www.youtube.com/channel/UCE7knjtf06Aar0EE9Qw7KPw/join In this lecture the following points are discussed: Characteristic Curves of Hydraulic Turbine & Main Characteristic Curves or Constant Head #Hydraulic #Machines If any doubt related to this lecture kindly give #Comment If you want more videos related to #Hydraulic #Machines then #Subscribe the channel and Press the #Bell Icon for more updates #Share this lecture and channel to your friends"  
[YouTube Link](https://youtube.com/watch?v=mREIJuTvlIU)  2025-12-24T04:43Z [---] followers, [--] engagements


"Lecture [--] #Ellipse by #Concentric Circle Method in #AutoCAD #Engineering Graphics A detail explanation given on how to draw #Ellipse by #Concentric Circle Method in #AutoCAD. If any doubt related to this lecture kindly give #Comment & if you want more videos related to #AutoCAD then #Subscribe the channel for more updates"  
[YouTube Link](https://youtube.com/watch?v=n26Z7-xQ0XI)  2024-10-29T06:30Z [---] followers, [---] engagements


"Lecture [--] Problem solved on Force exerted by a jet of water on a series of radial curved vanes In this lecture the following points are discussed: Problem solved on Force exerted by a jet of water on a series of radial curved vanes Impact of Jet #Hydraulic #Machine Problem 1: A jet of water having a velocity of [--] m/s strikes a series of radial curved vanes mounted on a wheel which is rotating at [---] r.p.m. The jet makes an angle of [--] with the tangent to wheel at inlet and leaves the wheel with a velocity of [--] m/s at an angle of [---] to the tangent to the wheel at outlet. Water is flowing"  
[YouTube Link](https://youtube.com/watch?v=onXzB1VsJDg)  2025-11-14T03:52Z [---] followers, [--] engagements


"Lecture [--] Specific Speed of a Centrifugal Pumps #Hydraulic #Machines Join this channel to get access to perks: https://www.youtube.com/channel/UCE7knjtf06Aar0EE9Qw7KPw/join In this lecture the following points are discussed: Specific Speed of a Centrifugal Pumps #Hydraulic #Machines If any doubt related to this lecture kindly give #Comment If you want more videos related to #Hydraulic #Machines then #Subscribe the channel and Press the #Bell Icon for more updates #Share this lecture and channel to your friends"  
[YouTube Link](https://youtube.com/watch?v=poxTAVJfljI)  2026-01-27T10:39Z [---] followers, [--] engagements


"Lecture [---] Methods of Preventing the Separation of Boundary Layer in #Fluid #Mechanics In this lecture the following points are discussed: Methods of Preventing the Separation of Boundary Layer in #Fluid #Mechanics If any doubt related to this lecture kindly give #Comment If you want more videos related to #Fluid #Mechanics then #Subscribe the channel for more updates"  
[YouTube Link](https://youtube.com/watch?v=qObBtcFJzfU)  2025-10-18T04:02Z [---] followers, [--] engagements


"Lecture [--] Minimum Speed for Starting a Centrifugal Pump #Hydraulic #Machines Join this channel to get access to perks: https://www.youtube.com/channel/UCE7knjtf06Aar0EE9Qw7KPw/join In this lecture the following points are discussed: Minimum Speed for Starting a Centrifugal Pump #Hydraulic #Machines If any doubt related to this lecture kindly give #Comment If you want more videos related to #Hydraulic #Machines then #Subscribe the channel and Press the #Bell Icon for more updates #Share this lecture and channel to your friends"  
[YouTube Link](https://youtube.com/watch?v=qRpMN69r59E)  2026-01-23T11:59Z [---] followers, [--] engagements


"Lecture [--] Problem Solved on Multistage Centrifugal Pumps #Hydraulic #Machine Join this channel to get access to perks: https://www.youtube.com/channel/UCE7knjtf06Aar0EE9Qw7KPw/join In this lecture the following points are discussed: Problem Solved on Multistage Centrifugal Pumps #Hydraulic #Machine Problem 1: A three stage centrifugal pump has impellers [--] cm in diameter and [--] cm wide at the outlet. The vanes are curved back at the outlet at [--] and reduce the circumferential area by 10%. The manometric efficiency is 90% and the overall efficiency is 80%. Determine the head generated by the"  
[YouTube Link](https://youtube.com/watch?v=rEk047hkAqI)  2026-01-26T08:29Z [---] followers, [--] engagements


"Lecture [--] Head of Hydraulic Turbines Gross Head Net Head and its Application #Hydraulic #Machines In this lecture the following points are discussed: Head of Hydraulic Turbines Gross Head Net Head and its Application #Hydraulic #Machines If any doubt related to this lecture kindly give #Comment If you want more videos related to #Hydraulic #Machines then #Subscribe the channel for more updates"  
[YouTube Link](https://youtube.com/watch?v=ssMTmcyFFrw)  2025-11-27T03:21Z [---] followers, [--] engagements


"Lecture [--] Governing of Hydraulic Turbines (Pelton Wheel) in #Hydraulic #Machines Join this channel to get access to perks: https://www.youtube.com/channel/UCE7knjtf06Aar0EE9Qw7KPw/join In this lecture the following points are discussed: Governing of Hydraulic Turbines (Pelton Wheel) in #Hydraulic #Machines If any doubt related to this lecture kindly give #Comment If you want more videos related to #Hydraulic #Machines then #Subscribe the channel and Press the #Bell Icon for more updates #Share this lecture and channel to your friends"  
[YouTube Link](https://youtube.com/watch?v=tUiFtGAH2OQ)  2026-01-04T10:44Z [---] followers, [--] engagements


"Lecture [--] Heads and Efficiencies of a Centrifugal Pump #Hydraulic #Machines Join this channel to get access to perks: https://www.youtube.com/channel/UCE7knjtf06Aar0EE9Qw7KPw/join In this lecture the following points are discussed: Heads and Efficiencies of a Centrifugal Pump #Hydraulic #Machines If any doubt related to this lecture kindly give #Comment If you want more videos related to #Hydraulic #Machines then #Subscribe the channel and Press the #Bell Icon for more updates #Share this lecture and channel to your friends"  
[YouTube Link](https://youtube.com/watch?v=usto2f74olc)  2026-01-20T12:10Z [---] followers, [--] engagements


"Lecture [--] Working Principle of Pelton Wheel Turbine #Hydraulic #Machines In this lecture the following points are discussed: Working Principle of Pelton Wheel Turbine #Hydraulic #Machines If any doubt related to this lecture kindly give #Comment If you want more videos related to #Hydraulic #Machines then #Subscribe the channel for more updates"  
[YouTube Link](https://youtube.com/watch?v=vYTRoW30ILc)  2025-11-30T05:06Z [---] followers, [--] engagements


"Lecture [--] Force Exerted by the Jet on a Stationary Vertical Plate #Impact of jets on plates In this lecture the following points are discussed: Force Exerted by the Jet on a Stationary Vertical Plate #Impact of jets on plates If any doubt related to this lecture kindly give #Comment If you want more videos related to #Hydraulic #Machines then #Subscribe the channel for more updates"  
[YouTube Link](https://youtube.com/watch?v=wC9XcQEyCmY)  2025-10-26T08:38Z [---] followers, [--] engagements


"Lecture [--] Jet Propulsion Types Application Advantages Disadvantages Hydraulic Machine In this lecture the following points are discussed: Jet Propulsion Types Application Advantages Disadvantages Impact of Jets #Hydraulic #Machines If any doubt related to this lecture kindly give #Comment If you want more videos related to #Hydraulic #Machines then #Subscribe the channel for more updates"  
[YouTube Link](https://youtube.com/watch?v=xJAIgu2ylKg)  2025-11-15T03:43Z [---] followers, [--] engagements


"Lecture [--] Working Principle of Centrifugal Pump Advantages Disadvantages Applications Join this channel to get access to perks: https://www.youtube.com/channel/UCE7knjtf06Aar0EE9Qw7KPw/join In this lecture the following points are discussed: Working Principle of Centrifugal Pump Advantages Disadvantages Applications in #Hydraulic #Machines If any doubt related to this lecture kindly give #Comment If you want more videos related to #Hydraulic #Machines then #Subscribe the channel and Press the #Bell Icon for more updates #Share this lecture and channel to your friends"  
[YouTube Link](https://youtube.com/watch?v=yOqpII8xDjU)  2026-01-10T04:40Z [---] followers, [--] engagements


"Lecture [--] #Euler's #Equation of #Motion #Bernoulli's #Equation #Assumptions in #Fluid #Mechanics In this lecture the following points are discussed: #Euler's #Equation of #Motion #Bernoulli's #Equation #Assumptions in #Fluid #Mechanics If any doubt related to this lecture kindly give #Comment & if you want more videos related to #Fluid Mechanics then #Subscribe the channel for more updates"  
[YouTube Link](https://youtube.com/watch?v=--ulUN3Sv5g)  2025-04-28T03:26Z [---] followers, [--] engagements


"Lecture [--] #Stream #Function in #Fluid #Mechanics In this lecture the following points are discussed: #Stream Function If any doubt related to this lecture kindly give #Comment & if you want more videos related to #Fluid Mechanics then #Subscribe the channel for more updates"  
[YouTube Link](https://youtube.com/watch?v=-UQsPt9Na_I)  2025-04-18T02:54Z [---] followers, [--] engagements


"Lecture [---] #Local or Skin Co-efficient of drag #Average Co-efficient of drag in #Fluid #Mechanics In this lecture the following points are discussed: #Local or Skin Co-efficient of drag #Average Co-efficient of drag in #Fluid #Mechanics If any doubt related to this lecture kindly give #Comment If you want more videos related to #Fluid #Mechanics then #Subscribe the channel for more updates"  
[YouTube Link](https://youtube.com/watch?v=-iCQQKk-6yc)  2025-10-07T12:00Z [---] followers, [--] engagements


"Lecture [---] Problem #Solved on #Froude #Model #Law in #Fluid #Mechanics In this lecture the following points are discussed: Problem #Solved on #Froude #Model #Law in #Fluid #Mechanics Problem 1: In [--] in [--] model of spillway the velocity and discharge are [--] m/s and [---] m3/s . Find the corresponding velocity and discharge in prototype. Problem 2: A ship model of a scale 1/50 is towed through sea water at a speed of [--] m/sec. A force of [--] N is required to tow the model. Determine the speed of ship and the propulsive force on the ship if the prototype is subjected to wave resistance only. If any"  
[YouTube Link](https://youtube.com/watch?v=0S2zL7-lUvk)  2025-09-19T11:17Z [---] followers, [--] engagements


"Lecture [---] #Flow #Through #Pipes in #Series or #Flow #Through #Compound #Pipes in #Fluid #Mechanics In this lecture the following points are discussed: #Flow #Through #Pipes in #Series or #Flow #Through #Compound #Pipes in #Fluid #Mechanics If any doubt related to this lecture kindly give #Comment & if you want more videos related to #Fluid #Mechanics then #Subscribe the channel for more updates"  
[YouTube Link](https://youtube.com/watch?v=0VkNYTxpCNk)  2025-07-30T10:24Z [---] followers, [--] engagements


"Lecture [---] Problem Solved on Turbulent Boundary Layer on a Flat Plate in #Fluid #Mechanics In this lecture the following points are discussed: Problem Solved on Turbulent Boundary Layer on a Flat Plate in #Fluid #Mechanics Problem 1: For the velocity profile of turbulent boundary layer as: u/U = (y/)1/7. Obtain an expression for boundary layer thickness shear stress drag force on one side of the plate and coefficient of drag in terms of Reynold number. Given the shear stress (0) for turbulent boundary layer as [--] = 0.0225U2(/U)1/4. If any doubt related to this lecture kindly give #Comment &"  
[YouTube Link](https://youtube.com/watch?v=0bJcc-LOkLY)  2025-10-13T03:45Z [---] followers, [--] engagements


"Lecture [--] #Flow #Between #Two #Parallel #Plates One is #Moving & Other is #Fixed #Couette #Flow In this lecture the following points are discussed: #Flow of #Fluid Between #Two #Parallel #Plates One #Plate is #Moving and Other is #Fixed #Couette Flow in #Fluid #Mechanics If any doubt related to this lecture kindly give #Comment & if you want more videos related to #Fluid #Mechanics then #Subscribe the channel for more updates"  
[YouTube Link](https://youtube.com/watch?v=16BtERS089M)  2025-06-25T12:07Z [---] followers, [--] engagements


"Lecture [--] #Metacenter and #Meta centric height of Fluid In this lecture the following points are discussed: #Metacenter #Meta centric height Link for Buoyancy and Center of Buoyancy https://youtu.be/x_44LOmAw6M If any doubt related to this lecture kindly give #Comment & if you want more videos related to #Fluid Mechanics then #Subscribe the channel for more updates"  
[YouTube Link](https://youtube.com/watch?v=1DFOssGJqr8)  2025-04-01T07:11Z [---] followers, [--] engagements


"Lecture [--] #Determining #Coefficient of #Viscosity by #Capillary #Tube #Method in #Fluid #Mechanics In this lecture the following points are discussed: #Determining #Coefficient of #Viscosity by #Capillary #Tube #Method in #Fluid #Mechanics #Hagen #Poiseuille #Formula https://youtu.be/w7-8vJrzF88 If any doubt related to this lecture kindly give #Comment & if you want more videos related to #Fluid #Mechanics then #Subscribe the channel for more updates"  
[YouTube Link](https://youtube.com/watch?v=1VQKoqOnA18)  2025-06-14T07:29Z [---] followers, [--] engagements


"Lecture [--] #Section of Solids Problem [--] #Plane Inclined to VP & Parallel to HP #Triangular #Prism A problem solved on #Section of Solids #Section Plane is Inclined to VP and Parallel to HP #Triangular #Prism. Question: A triangular prism of base side [--] mm and axis [--] mm lies on one of its rectangular faces on the H.P. with its axis inclined at [--] to the V.P. It is cut by a horizontal section plane at a distance of [--] mm from the axis. Draw its front view and sectional top view. If any doubt related to this lecture kindly give #Comment & if you want more videos related to #AutoCAD then"  
[YouTube Link](https://youtube.com/watch?v=2CVcWYgfXBo)  2025-01-01T10:38Z [--] followers, [---] engagements


"Lecture [---] #Problem Solved on #Resistance in #Rough #Pipes in #Fluid #Mechanics In this lecture the following points are discussed: #Problem Solved on #Resistance in #Rough #Pipes in #Fluid #Mechanics Problem 1: Water is flowing through a rough pipe of diameter [---] mm and length [----] m at the rate of [---] m3/s. Find the power required to maintain this flow. Take average height of roughness as k = [----] mm. If any doubt related to this lecture kindly give #Comment & if you want more videos related to #Fluid Mechanics then #Subscribe the channel for more updates"  
[YouTube Link](https://youtube.com/watch?v=2lpZMDNIVCU)  2025-07-15T12:13Z [---] followers, [--] engagements


"Lecture [---] #Problem Solved on #Minor Losses due to #Entry & #Exit in the #Pipe #Fluid #Mechanics In this lecture the following points are discussed: #Problem Solved on #Minor Losses due to #Entry & #Exit in the #Pipe #Fluid #Mechanics Problem 1: Determine the rate of flow of water through a pipe of diameter [--] cm and length [--] m when one end of the pipe is connected to a tank and other end is open to the atmosphere. The pipe is horizontal and the height of water in the tank is [--] m above the centre of the pipe. Consider all minor losses and take f = [-----] in the formula hf = [--] f L V2 / [--] d g."  
[YouTube Link](https://youtube.com/watch?v=3HnzRgYugFQ)  2025-07-25T11:54Z [---] followers, [--] engagements


"Lecture [---] Introduction to Boundary Layer Theory in Fluid Mechanics In this lecture the following points are discussed: Introduction to #Boundary Layer Theory in #Fluid #Mechanics If any doubt related to this lecture kindly give #Comment If you want more videos related to #Fluid #Mechanics then #Subscribe the channel for more updates"  
[YouTube Link](https://youtube.com/watch?v=3_5VkoS4yP0)  2025-09-23T12:06Z [---] followers, [--] engagements


"Lecture [--] #Problem solved on #Velocity and #Acceleration in fluid flow Kinematics In this lecture #Problem solved on #Velocity and #Acceleration in fluid flow Kinematics If any doubt related to this lecture kindly give #Comment & if you want more videos related to #Fluid Mechanics then #Subscribe the channel for more updates"  
[YouTube Link](https://youtube.com/watch?v=3chbXRHy5o4)  2025-04-13T12:20Z [---] followers, [--] engagements


"Lecture [---] #Hydrodynamically #Smooth and #Rough #Boundaries for Turbulent Flow in #Fluid #Mechanics In this lecture the following points are discussed: #Hydrodynamically #Smooth and #Rough #Boundaries for Turbulent Flow in #Fluid #Mechanics If any doubt related to this lecture kindly give #Comment & if you want more videos related to #Fluid #Mechanics then #Subscribe the channel for more updates"  
[YouTube Link](https://youtube.com/watch?v=3ef1HWOV5LM)  2025-07-03T12:04Z [---] followers, [--] engagements


"Lecture [---] #Prandtl Mixing Length Theory for #Turbulent Shear Stress in #Fluid Mechanics In this lecture the following points are discussed: #Prandtl Mixing Length Theory for #Turbulent Shear Stress in #Fluid Mechanics If any doubt related to this lecture kindly give #Comment & if you want more videos related to #Fluid #Mechanics then #Subscribe the channel for more updates"  
[YouTube Link](https://youtube.com/watch?v=46Mc1mUExzM)  2025-07-01T11:30Z [---] followers, [--] engagements


"Lecture [---] #Problem #Solved on #Fluid #Flow Through #Pipes in #Series #Fluid #Mechanics In this lecture the following points are discussed: #Problem #Solved on #Fluid #Flow Through #Pipes in #Series #Fluid #Mechanics Problem 1: The difference in water surface levels in two tanks is [--] meter which are connected by three pipes in series of length [---] m [---] m and [---] m the diameters are [---] m [---] m and [---] m respectively. Determine the rate of flow of water if the coefficient of friction for pipes is [-----] [------] and [------] respectively (a) Consider all minor losses and (b) Neglect minor"  
[YouTube Link](https://youtube.com/watch?v=4D-YOShSVs4)  2025-08-01T03:45Z [---] followers, [--] engagements


"Lecture [---] #Problem Solved on #Resistance in #Smooth #Pipes in #Fluid #Mechanics In this lecture the following points are discussed: #Problem Solved on #Resistance in #Smooth #Pipes in #Fluid #Mechanics Problem 1: A smooth pipe of diameter [---] mm and length [---] m carries water at the rate of [----] m/s. Determine the head lost due to friction wall shear stress centre-line velocity and thickness of laminar sub layer. Take the kinematic viscosity of water as [-----] stokes. If any doubt related to this lecture kindly give #Comment & if you want more videos related to #Fluid Mechanics then"  
[YouTube Link](https://youtube.com/watch?v=4G4Z05XwG6g)  2025-07-16T12:01Z [---] followers, [--] engagements


"Lecture [---] #Rayleigh #Method of #Dimensional #Analysis [--] #Variables in #Fluid #Mechanics In this lecture the following points are discussed: #Rayleigh #Method of #Dimensional #Analysis [--] #Variables in #Fluid #Mechanics If any doubt related to this lecture kindly give #Comment & if you want more videos related to #Fluid #Mechanics then #Subscribe the channel for more updates"  
[YouTube Link](https://youtube.com/watch?v=4fLBGCxyhYE)  2025-08-31T07:20Z [---] followers, [--] engagements


"Lecture [---] #Flow Through Pipe or #Loss of Energy in Pipe Flow #Chezy's Equation in #Fluid Mechanics In this lecture the following points are discussed: #Flow Through Pipe or #Loss of Energy in Pipe Flow #Chezy's Equation in #Fluid Mechanics If any doubt related to this lecture kindly give #Comment & if you want more videos related to #Fluid #Mechanics then #Subscribe the channel for more updates"  
[YouTube Link](https://youtube.com/watch?v=4h36Siy8T0A)  2025-07-17T12:08Z [---] followers, [--] engagements


"Lecture [---] #Drag Force on a Plate due to Boundary Layer or #Von Korman Momentum Integral Equation In this lecture the following points are discussed: Drag Force on a Plate due to Boundary Layer or Von Korman Momentum Integral Equation in #Fluid #Mechanics If any doubt related to this lecture kindly give #Comment If you want more videos related to #Fluid #Mechanics then #Subscribe the channel for more updates"  
[YouTube Link](https://youtube.com/watch?v=5EetB70L1gU)  2025-10-04T05:44Z [---] followers, [--] engagements


"Lecture [--] Problem on #Hydrostatic Forces #Vertical Plane Surfaces Submerged in Liquid In this lecture Problem Solved on #Hydrostatic Forces #Vertical Plane Surfaces #Submerged in Liquid. Problem 1: A rectangular plane surface is [--] m wide and [--] m deep. It lies in vertical plane in water. Determine the total pressure and position of centre of pressure on the plane surface when its upper edge is horizontal and (a) coincides with water surface (b) [---] m below the free water surface. If any doubt related to this lecture kindly give #Comment & if you want more videos related to #Fluid Mechanics"  
[YouTube Link](https://youtube.com/watch?v=5PdoIBcJEJA)  2025-03-23T07:51Z [---] followers, [--] engagements


"Lecture [---] #Velocity #Distribution for #Turbulent Flow in terms of #Average #Velocity In this lecture the following points are discussed: #Velocity #Distribution for #Turbulent Flow in terms of #Average #Velocity in #Fluid #Mechanics #Velocity #Distribution for #Turbulent Flow in #Smooth #Pipes and #Rough #Pipes https://youtu.be/YSQW_Rbdtxs #Velocity #Distribution in #Turbulent #Flow in #Pipes in #Fluid #Mechanics https://youtu.be/DKivDCati84 #Hydrodynamically #Smooth and #Rough #Boundaries for Turbulent Flow in #Fluid #Mechanics https://youtu.be/3ef1HWOV5LM If any doubt related to this"  
[YouTube Link](https://youtube.com/watch?v=5okCVnH87HQ)  2025-07-07T09:51Z [---] followers, [--] engagements


"Lecture [---] #Problem Solved on #Flow Through #Equivalent Pipes in #Fluid #Mechanics In this lecture the following points are discussed: #Problem Solved on #Flow Through #Equivalent Pipes in #Fluid #Mechanics Problem 1: Three pipes of lengths [---] m [---] m and [---] m and of diameters [---] mm [---] mm and [---] mm respectively are connected in series. These pipes are to be replaced by a single pipe of length. Find the diameter of the single pipe. If any doubt related to this lecture kindly give #Comment & if you want more videos related to #Fluid Mechanics then #Subscribe the channel for more updates"  
[YouTube Link](https://youtube.com/watch?v=5zAC2tkgiT4)  2025-08-03T09:18Z [---] followers, [--] engagements


"Lecture [---] Total Drag on a Flat Plate due to Laminar & Turbulent Boundary Layer in #Fluid Mechanics In this lecture the following points are discussed: Total Drag on a Flat Plate due to Laminar & Turbulent Boundary Layer in #Fluid #Mechanics If any doubt related to this lecture kindly give #Comment If you want more videos related to #Fluid #Mechanics then #Subscribe the channel for more updates"  
[YouTube Link](https://youtube.com/watch?v=64qRGEWxJJ8)  2025-10-14T03:55Z [---] followers, [--] engagements


"Lecture [--] #Problem on #Velocity #Potential #Function in #Fluid #Mechanics In this lecture the following points are discussed: Problem on #Velocity #Potential #Function If any doubt related to this lecture kindly give #Comment & if you want more videos related to #Fluid Mechanics then #Subscribe the channel for more updates"  
[YouTube Link](https://youtube.com/watch?v=6gFOMdrf0n8)  2025-04-17T07:53Z [---] followers, [--] engagements


"Lecture [---] #Model Laws or #Similarity of laws #Reynolds Model Laws in #Fluid #Mechanics In this lecture the following points are discussed: #Model Laws or #Similarity of laws #Reynolds Model Laws in #Fluid #Mechanics If any doubt related to this lecture kindly give #Comment If you want more videos related to #Fluid #Mechanics then #Subscribe the channel for more updates"  
[YouTube Link](https://youtube.com/watch?v=74oCSr23vO4)  2025-09-16T03:39Z [---] followers, [--] engagements


"Lecture [---] Sudden Closure of Valves (Water Hammer in Pipes) when pipe is Elastic in Fluid Mechanics In this lecture the following points are discussed: Sudden Closure of Valves (Water Hammer in Pipes) when pipe is Elastic in Fluid Mechanics If any doubt related to this lecture kindly give #Comment & if you want more videos related to #Fluid #Mechanics then #Subscribe the channel for more updates"  
[YouTube Link](https://youtube.com/watch?v=84K7g7fExPg)  2025-08-23T06:49Z [---] followers, [--] engagements


"Lecture [---] Problem Solved on #Reynolds Model #Laws in #Fluid #Mechanics In this lecture the following points are discussed: Problem Solved on #Reynolds Model #Laws in #Fluid #Mechanics Problem 1: A pipe of diameter [---] m is required to transport an oil of sp. gr. [----] and viscosity [--] x 10-2 poise at the rate of [----] litre/sec. Tests were conducted on a [--] cm diameter pipe using water at [--] . Find the velocity and rate of flow in the model. Viscosity of water at 20C = [----] poise. If any doubt related to this lecture kindly give #Comment & if you want more videos related to #Fluid Mechanics"  
[YouTube Link](https://youtube.com/watch?v=8G4PS3vkmY4)  2025-09-17T03:53Z [---] followers, [--] engagements


"Lecture [--] #Problem #Solved on #Determining #Coefficient of #Viscosity by #Capillary #Tube #Method In this lecture the following points are discussed: #Problem #Solved on #Determining #Coefficient of #Viscosity by #Capillary #Tube #Method Problem 1: The viscosity of an oil of sp. gr. [---] is measured by a capillary tube of diameter [--] mm. The difference of pressure head between two points [--] m apart is [---] m of water. The mass of oil collected in a measuring tank is [--] kg in [---] seconds. Find the viscosity of oil. If any doubt related to this lecture kindly give #Comment & if you want more"  
[YouTube Link](https://youtube.com/watch?v=8LDwsQZEGg0)  2025-06-15T09:47Z [---] followers, [--] engagements


"Lecture [---] Froude Model Law Scale ratio for Time Acceleration Discharge Force Pressure & Power In this lecture the following points are discussed: #Froude Model Law #Scale ratio for Time Acceleration Discharge Force Pressure & Power in #Fluid #Mechanics If any doubt related to this lecture kindly give #Comment If you want more videos related to #Fluid #Mechanics then #Subscribe the channel for more updates"  
[YouTube Link](https://youtube.com/watch?v=96_dMKuxcdw)  2025-09-18T03:39Z [---] followers, [--] engagements


"Lecture [--] #Problem solved on #Meta centric height and #Stability of liquid In this lecture Problem Solved on #Meta centric height and #Stability of Liquid. Problem 1: A solid cylinder of diameter [---] m has a height of [--] meters. Find the meta-centric height of the cylinder when it is floating in water with its axis vertical. The sp. gr. of the cylinder = [---]. State whether the equilibrium is stable or unstable. If any doubt related to this lecture kindly give #Comment & if you want more videos related to #Fluid Mechanics then #Subscribe the channel for more updates"  
[YouTube Link](https://youtube.com/watch?v=A53fwoqsMBI)  2025-04-06T08:17Z [---] followers, [--] engagements


"Lecture [---] Gradual Closure of Valves (Water Hammer in Pipes) in #Fluid #Mechanics In this lecture the following points are discussed: Gradual Closure of Valves (Water Hammer in Pipes) in #Fluid #Mechanics If any doubt related to this lecture kindly give #Comment & if you want more videos related to #Fluid #Mechanics then #Subscribe the channel for more updates"  
[YouTube Link](https://youtube.com/watch?v=Aam43HWVR-c)  2025-08-21T03:56Z [---] followers, [--] engagements


"Lecture [--] Problem Solved on #Free #Vortex #Flow in #Fluid #Mechanics In this lecture the following points are discussed: Problem Solved on #Free #Vortex #Flow in #Fluid #Mechanics Problem 1: In a free cylindrical vortex flow at a point in the fluid at a radius of [----] m and at a height of [---] m the velocity and pressures are [--] m/s and [------] kN/m2 absolute. Find the pressure at a radius of [---] mm and at a height of [---] mm. The fluid is air with density equal to [----] kg/m3. If any doubt related to this lecture kindly give #Comment & if you want more videos related to #Fluid Mechanics then"  
[YouTube Link](https://youtube.com/watch?v=AwQ0spmH_IY)  2025-04-27T05:13Z [---] followers, [--] engagements


"Lecture [---] #Minor #Loss in the #Pipe due to #Bend & #Fittings in the #Pipe in #Fluid #Mechanics In this lecture the following points are discussed: #Minor #Loss in the #Pipe due to #Bend & #Fittings in the #Pipe in #Fluid #Mechanics If any doubt related to this lecture kindly give #Comment & if you want more videos related to #Fluid #Mechanics then #Subscribe the channel for more updates"  
[YouTube Link](https://youtube.com/watch?v=B8ISNbHPlgw)  2025-07-28T11:40Z [---] followers, [--] engagements


"Lecture [---] #Dimensional #Analysis & #Dimensional #Homogeneity in Fluid Mechanics In this lecture the following points are discussed: #Dimensional #Analysis & #Dimensional #Homogeneity in Fluid Mechanics If any doubt related to this lecture kindly give #Comment & if you want more videos related to #Fluid #Mechanics then #Subscribe the channel for more updates"  
[YouTube Link](https://youtube.com/watch?v=B8sR15U88js)  2025-08-30T03:42Z [---] followers, [--] engagements


"Lecture [---] Problem Solved on #Power Transmission Through #Pipes in #Fluid #Mechanics In this lecture the following points are discussed: Problem Solved on #Power Transmission Through #Pipes in #Fluid #Mechanics Problem 1: A pipe line of length [----] m is used for power transmission. If [--------] kW power is to be transmitted through the pipe in which water having a pressure of [-----] N/cm2 at inlet is flowing. Find the diameter of the pipe and efficiency of transmission if pressure drop over the length of pipe is [----] N/cm2. Take f = [------]. If any doubt related to this lecture kindly give"  
[YouTube Link](https://youtube.com/watch?v=BoQSkm8gbeY)  2025-08-11T05:38Z [---] followers, [--] engagements


"Lecture [--] #Moment of #Momentum #Equation in #Fluid #Mechanics In this lecture the following points are discussed: #Moment of #Momentum #Equation in #Fluid #Mechanics If any doubt related to this lecture kindly give #Comment & if you want more videos related to #Fluid Mechanics then #Subscribe the channel for more updates"  
[YouTube Link](https://youtube.com/watch?v=CMSn-xvJQ3Q)  2025-05-18T10:43Z [---] followers, [--] engagements


"Lecture [---] #Flow Through #Parallel Pipes in #Fluid #Mechanics In this lecture the following points are discussed: #Flow Through #Parallel Pipes in #Fluid #Mechanics If any doubt related to this lecture kindly give #Comment & if you want more videos related to #Fluid #Mechanics then #Subscribe the channel for more updates"  
[YouTube Link](https://youtube.com/watch?v=DAFjaQuy_Hw)  2025-08-04T05:39Z [---] followers, [--] engagements


"Lecture [---] #Velocity #Distribution in #Turbulent #Flow in #Pipes in #Fluid #Mechanics In this lecture the following points are discussed: #Velocity #Distribution in #Turbulent #Flow in #Pipes in #Fluid #Mechanics https://youtu.be/46Mc1mUExzM If any doubt related to this lecture kindly give #Comment & if you want more videos related to #Fluid #Mechanics then #Subscribe the channel for more updates"  
[YouTube Link](https://youtube.com/watch?v=DKivDCati84)  2025-07-02T11:57Z [---] followers, [--] engagements


"Lecture [--] #Projection of Plane Part 1#Parallel to H.P.& Perpendicular to V.P.#Square Plane #AutoCAD A detail explanation given on how to draw Projection of Plane in AutoCAD as well as manually. Plane Parallel to H.P. & Perpendicular to V.P. (a) a side is parallel to the V.P. (b) one side is inclined at [--] to the V.P. and (c) all sides are equally inclined to the V.P. If any doubt related to this lecture kindly give comment and if you want more video related to AutoCAD then subscribe the channel for more updates"  
[YouTube Link](https://youtube.com/watch?v=EEJ13o3Q9u8)  2024-10-24T11:49Z [---] followers, [---] engagements


"Lecture [---] #Problem Solved on #Minor #Losses due to #Obstruction in the #Pipe #Fluid #Mechanics In this lecture the following points are discussed: #Problem Solved on #Minor Losses due to #Entry & #Exit in the #Pipe #Fluid #Mechanics Problem 1: Water is flowing through a horizontal pipe of diameter [---] mm at a velocity of [--] m/s. A circular solid plate of diameter [---] mm is placed in the pipe to obstruct the flow. Find the loss of head due to obstruction in the pipe if Cc = [----]. If any doubt related to this lecture kindly give #Comment & if you want more videos related to #Fluid Mechanics"  
[YouTube Link](https://youtube.com/watch?v=EHmchrlZwwo)  2025-07-27T06:35Z [---] followers, [--] engagements


"Lecture [---] Problem Solved on Displacement Momentum & Energy Thickness in #Fluid #Mechanics In this lecture the following points are discussed: Problem Solved on Displacement Momentum & Energy Thickness in #Fluid #Mechanics Problem 1: Find the displacement thickness momentum thickness and energy thickness for the velocity distribution in the boundary layer is given by (u/U) = (y/) where u is the velocity at distance of y from the plate and u = U at y = where is the boundary layer thickness. Calculate the value of */ If any doubt related to this lecture kindly give #Comment & if you want more"  
[YouTube Link](https://youtube.com/watch?v=F5r0ZnPKoYc)  2025-10-03T13:25Z [---] followers, [--] engagements


"Lecture [--] Types of #Fluid#Flow Un/Steady Non/Uniform Laminar/Turbulent In/Compressible 1D/2D/3D In this lecture the following points are discussed: Types of #Fluid #Flows: #Steady & #Unsteady flow #Uniform & #Non Uniform flow #Incompressible & #Compressible flow #Laminar & #Turbulent flow #Rotational & #Irrotational flow #1-D #2-D & #3-D flow If any doubt related to this lecture kindly give #Comment & if you want more videos related to #Fluid Mechanics then #Subscribe the channel for more updates"  
[YouTube Link](https://youtube.com/watch?v=FZHDMStTktQ)  2025-04-07T03:30Z [---] followers, [--] engagements


"Lecture [---] #Fluid Flow Through #Branched Pipes in #Fluid #Mechanics In this lecture the following points are discussed: #Fluid Flow Through #Branched Pipes in #Fluid #Mechanics If any doubt related to this lecture kindly give #Comment & if you want more videos related to #Fluid #Mechanics then #Subscribe the channel for more updates"  
[YouTube Link](https://youtube.com/watch?v=Fgd2xDDKLq8)  2025-08-06T09:46Z [---] followers, [--] engagements


"Lecture [---] Problem Solved on #Water #Hammer in Pipes in #Fluid #Mechanics In this lecture the following points are discussed: Problem Solved on #Water #Hammer in Pipes in #Fluid #Mechanics Problem 1: Water is flowing with a velocity of [---] m/s in a pipe of length [----] m and of diameter [---] mm. At the end of the pipe a valve is provided. What is the rise in pressure if the valve is closed in [--] seconds. Take the value of C as [----] m/s. Let consider the valve is closed in [--] sec find the pressure rise behind the valve assume the pipe to be rigid and consider Bulk modulus of water K = 19.62*104"  
[YouTube Link](https://youtube.com/watch?v=FpLE5dOooTg)  2025-08-25T03:47Z [---] followers, [--] engagements


"Lecture [--] Problem on #Types of #Motion in #Fluid Mechanics In this lecture the following points are discussed: Problem on #Types of Motion in Fluid Mechanics Problem 1: The velocity components in a two dimensional flow are: u = y3/3 + 2x x2y& v = xy2 2y x3/3 Show that these components represent a possible case of an irrotational flow. If any doubt related to this lecture kindly give #Comment & if you want more videos related to #Fluid Mechanics then #Subscribe the channel for more updates"  
[YouTube Link](https://youtube.com/watch?v=Fz2ZGW75yuA)  2025-04-21T04:13Z [---] followers, [--] engagements


"Lecture [--] #Inclined Plane Surfaces #Submerged in Liquid (Total Pressure & Center of Pressure) In this lecture Inclined Plane Surfaces #Submerged in Liquid is explained. Total Pressure & Center of Pressure If any doubt related to this lecture kindly give #Comment & if you want more videos related to #Fluid Mechanics then #Subscribe the channel for more updates"  
[YouTube Link](https://youtube.com/watch?v=IJflsWcCIyk)  2025-03-25T06:01Z [---] followers, [--] engagements


"Lecture [--] #Problem Solved on Flow of #Viscous #Fluid #Through #Circular #Pipe in #Fluid #Mechanics In this lecture the following points are discussed: #Problem Solved on #Flow of #Viscous #Fluid #Through #Circular #Pipe in #Fluid #Mechanics Problem 1: A crude oil of viscosity [----] poise and relative density [---] is flowing through a horizontal circular pipe of diameter 100mm and of length 10m. Calculate the difference of pressure at the two ends of the pipe. if [---] kg of the oil is collected in a tank in [--] seconds. If any doubt related to this lecture kindly give #Comment & if you want more"  
[YouTube Link](https://youtube.com/watch?v=IdbhZn0u2hU)  2025-05-30T03:59Z [---] followers, [--] engagements


"Lecture [--] #Power Absorbed in Viscous Flow #Viscous #Resistance on #Collar Bearing #Fluid #Mechanics In this lecture the following points are discussed: #Power Absorbed in Viscous Flow #Viscous Resistance on #Collar Bearing in Fluid Mechanics If any doubt related to this lecture kindly give #Comment & if you want more videos related to #Fluid #Mechanics then #Subscribe the channel for more updates"  
[YouTube Link](https://youtube.com/watch?v=IyLMi-WlaQs)  2025-06-12T10:27Z [---] followers, [--] engagements


"Lecture [---] #Problem Solved on #Turbulent #Flow in #Rough Pipes Calculate #Height of #Roughness In this lecture the following points are discussed: #Problem Solved on #Turbulent #Flow in #Rough Pipes Calculate #Height of #Roughness in Fluid Mechanics Problem 1: A rough pipe is of diameter [---] cm. The velocity at a point [---] cm from the wall is 30% more than the velocity at a point [--] cm from the pipe wall. Determine the average height of the roughness. #Velocity #Distribution for #Turbulent Flow in #Smooth #Pipes and #Rough #Pipes https://youtu.be/YSQW_Rbdtxs #Hydrodynamically #Smooth and"  
[YouTube Link](https://youtube.com/watch?v=JAgKKbqPrnU)  2025-07-05T11:44Z [---] followers, [--] engagements


"Lecture [--] #Problem Solved on #Pitot #Tube in #Fluid #Mechanics In this lecture the following points are discussed: #Problem Solved on #Pitot #Tube in #Fluid #Mechanics Problem 1: A pitot tube is inserted in a pipe of [---] mm diameter. The static pressure in pipe is [---] mm of mercury (vacuum). The stagnation pressure at the center of the pipe recorded by the pitot tube is [-----] N/cm2. Calculate the rate of flow of water through a pipe if the mean velocity of flow is [----] times the central velocity. Take Cv=0.98. If any doubt related to this lecture kindly give #Comment & if you want more"  
[YouTube Link](https://youtube.com/watch?v=JKb8KCTv5i8)  2025-05-06T03:32Z [---] followers, [--] engagements


"Lecture [--] #Projection of Plane Part 5#Inclined to VP & Perpendicular to H.P.#Hexagon#Circle#AutoCAD A detail explanation given on how to draw Projection of Plane in #AutoCAD as well as manually. (a) Circular & Hexagonal Plane Inclined to V.P. & Perpendicular to H.P. If any doubt related to this lecture kindly give #Comment# & if you want more video related to AutoCAD then #Subscribe# the channel for more updates"  
[YouTube Link](https://youtube.com/watch?v=JKtRL_hUzbU)  2024-10-27T06:44Z [---] followers, [---] engagements


"Lecture [---] Separation of Boundary Layer Fluid Effect of Pressure Gradient in #Fluid #Mechanics In this lecture the following points are discussed: Separation of Boundary Layer Fluid Effect of Pressure Gradient in #Fluid #Mechanics If any doubt related to this lecture kindly give #Comment If you want more videos related to #Fluid #Mechanics then #Subscribe the channel for more updates"  
[YouTube Link](https://youtube.com/watch?v=JzhQlSCLcjA)  2025-10-16T12:16Z [---] followers, [--] engagements


"Lecture [--] Problem Solved on #Determining the #Coefficient of Viscosity by #Rotating Cylinder Method In this lecture the following points are discussed: #Problem on #Determining the #Viscosity by #Rotating #Cylinder #Method in Fluid Mechanics Problem 1: The viscosity of a liquid is determined by the rotating cylinder method in which case the inner cylinder of diameter [--] cm is stationary. The outer cylinder of diameter [----] cm contains the liquid up to a height of [--] cm. The clearance at the bottom of the two cylinders is [---] cm. The outer cylinder is rotated at [---] r.p.m. The torque"  
[YouTube Link](https://youtube.com/watch?v=KKQKxZ8_CIk)  2025-06-19T08:27Z [---] followers, [--] engagements


"Lecture [---] Diameter of Nozzle for Maximum Transmission of #Power Through #Nozzle in Fluid Mechanics In this lecture the following points are discussed: Diameter of Nozzle for Maximum Transmission of #Power Through #Nozzle in Fluid Mechanics If any doubt related to this lecture kindly give #Comment & if you want more videos related to #Fluid #Mechanics then #Subscribe the channel for more updates"  
[YouTube Link](https://youtube.com/watch?v=KojoD2L81dM)  2025-08-14T04:30Z [---] followers, [--] engagements


"Lecture [--] #Reynolds #Experiment/Number #Laminar #Transition & #Turbulent #Flow in #Fluid Mechanics In this lecture the following points are discussed: #Reynolds #Experiment/Number #Laminar #Transition & #Turbulent #Flow in #Fluid Mechanics If any doubt related to this lecture kindly give #Comment & if you want more videos related to #Fluid #Mechanics then #Subscribe the channel for more updates"  
[YouTube Link](https://youtube.com/watch?v=L3aTH56qH-0)  2025-06-26T11:50Z [---] followers, [--] engagements


"Lecture [---] Problem Solved on Total Drag on a Flat Plate due to Turbulent BL in #Fluid #Mechanics In this lecture the following points are discussed: Problem Solved on Total Drag on a Flat Plate due to Turbulent Boundary Layer in #Fluid #Mechanics Problem 1: Water is flowing over a thin smooth plate of length [--] m and width [--] m at a velocity of [---] m/s. If the boundary layer flow changes from laminar to turbulent at a Reynold number [----]. Find (i) the distance from leading edge up to which boundary layer is laminar and (ii) the thickness of the boundary layer at the transition point (c) the"  
[YouTube Link](https://youtube.com/watch?v=LDptn9mBIKg)  2025-10-15T06:25Z [---] followers, [--] engagements


"Lecture [---] #Fluid Flow Through #Nozzles in #Fluid #Mechanics In this lecture the following points are discussed: #Fluid Flow Through #Nozzles in #Fluid #Mechanics If any doubt related to this lecture kindly give #Comment & if you want more videos related to #Fluid #Mechanics then #Subscribe the channel for more updates"  
[YouTube Link](https://youtube.com/watch?v=Lh39Wi3CmUM)  2025-08-12T06:24Z [---] followers, [--] engagements


"Lecture [---] Sudden Closure of Valves (Water Hammer in Pipes) when pipe is rigid in #Fluid #Mechanics In this lecture the following points are discussed: Sudden Closure of Valves (Water Hammer in Pipes) when pipe is rigid in #Fluid #Mechanics If any doubt related to this lecture kindly give #Comment & if you want more videos related to #Fluid #Mechanics then #Subscribe the channel for more updates"  
[YouTube Link](https://youtube.com/watch?v=M0IceVyqoCE)  2025-08-22T03:38Z [---] followers, [--] engagements


"Lecture [---] Problem Solved on Power Transmitted Through Nozzle2 in #Fluid #Mechanics In this lecture the following points are discussed: Problem Solved on #Power Transmission Through #Pipes in #Fluid #Mechanics Problem 1: The rate of flow of water through a pipe length of [----] m and diameter [--] m is [--] m3/s. At the end of the pipe a nozzle of outside diameter [---] mm is fitted. Find the power transmitted through the nozzle if the head of water at inlet of the pipe is [---] m and coefficient of friction for pipe is [----]. If any doubt related to this lecture kindly give #Comment & if you want more"  
[YouTube Link](https://youtube.com/watch?v=M94aHWwh54A)  2025-08-19T05:05Z [---] followers, [--] engagements


"Lecture [--] #Problem in #Inclined #Plane #Surfaces #Submerged in Liquid In this lecture Problem Solved on #Inclined Plane Surfaces #Submerged in Liquid. Problem 1: A rectangular plane surface [--] m wide and [--] m deep lies in liquid in such a way that its plane makes an angle of [--] with the free surface of water. Determine the total pressure and position of centre of pressure when the upper edge is [---] m below the free surface of liquid. Problem 2: A circular plate [---] m diameter is immersed in water in such a way that its greatest and least depth below the free surface are [--] m and [---] m"  
[YouTube Link](https://youtube.com/watch?v=Mc7Kv1VBFN0)  2025-03-26T03:46Z [---] followers, [--] engagements


"Lecture [--] #Correction #Factor and #Kinetic #Energy #Correction #Factor in #Fluid Mechanics In this lecture the following points are discussed: #Correction #Factor and #Kinetic #Energy #Correction #Factor in #Fluid Mechanics If any doubt related to this lecture kindly give #Comment & if you want more videos related to #Fluid #Mechanics then #Subscribe the channel for more updates"  
[YouTube Link](https://youtube.com/watch?v=MnOSzl3VlRY)  2025-06-03T09:54Z [---] followers, [--] engagements


"Lecture [---] #Buckinghams #Pie #Theorem #Dimensional #Analysis in #Fluid #Mechanics In this lecture the following points are discussed: #Buckinghams #Pie #Theorem #Dimensional #Analysis in #Fluid #Mechanics If any doubt related to this lecture kindly give #Comment & if you want more videos related to #Fluid #Mechanics then #Subscribe the channel for more updates"  
[YouTube Link](https://youtube.com/watch?v=MpoXILYOlLs)  2025-09-02T04:32Z [---] followers, [--] engagements


"Lecture [---] #Problem #Minor Losses Through the #Pipes due to #Sudden #Contraction #Fluid #Mechanics In this lecture the following points are discussed: #Problem Solved on #Minor Losses Through the #Pipes due to #Sudden #Contraction in #Fluid #Mechanics Problem 1: A horizontal pipe of diameter [---] mm is suddenly contracted to a diameter of [---] mm. The pressure intensities in the large and smaller pipe is given as [------] N/cm2 and [------] N/cm2 respectively. Find the loss of head due to contraction and rate of flow consider Cc= [----]. If any doubt related to this lecture kindly give #Comment & if"  
[YouTube Link](https://youtube.com/watch?v=Ncr1LD6d1FI)  2025-07-23T08:50Z [---] followers, [--] engagements


"Lecture [---] Separation of Boundary Layer Laminar & Turbulent Boundary Layer Theory Laminar Sublayer In this lecture the following points are discussed: Separation of Boundary Layer Laminar Boundary Layer Theory & Turbulent Boundary Layer Theory Laminar Sublayer in #Fluid #Mechanics If any doubt related to this lecture kindly give #Comment If you want more videos related to #Fluid #Mechanics then #Subscribe the channel for more updates"  
[YouTube Link](https://youtube.com/watch?v=O4OdaopPE7M)  2025-09-24T09:14Z [---] followers, [--] engagements


"Lecture [--] #Flow #Measuring #Device #Rotameter in #Fluid #Mechanics In this lecture the following points are discussed: #Flow #Measuring #Device #Rotameter in #Fluid #Mechanics #Application #Advantages #Disadvantages of #Flow #Nozzle If any doubt related to this lecture kindly give #Comment & if you want more videos related to #Fluid #Mechanics then #Subscribe the channel for more updates"  
[YouTube Link](https://youtube.com/watch?v=O4RS9mm_IvU)  2025-05-22T07:49Z [---] followers, [--] engagements


"Lecture [---] Expression for [--] Cd from Velocity Profile of LBL in #Fluid #Mechanics In this lecture the following points are discussed: Expression of [--] Cd from Velocity Profile of Laminar Boundary Layer in #Fluid #Mechanics Problem 1: For the velocity profile of laminar boundary layer flows given as: u/U = 3/2(y/) 1/2(y/)3. Find an expression for boundary layer thickness shear stress and coefficient of drag in terms of Reynolds number. If any doubt related to this lecture kindly give #Comment If you want more videos related to #Fluid #Mechanics then #Subscribe the channel for more updates"  
[YouTube Link](https://youtube.com/watch?v=OSYLx3LCzVo)  2025-10-10T03:51Z [---] followers, [--] engagements


"Lecture [---] Types of forces acting on fluid flow Inertia Viscous Gravity Pressure S T Elastic In this lecture the following points are discussed: Types of forces acting on fluid flow Inertia Viscous Gravity Pressure Surface Tension & Elastic Forces in #Fluid #Mechanics If any doubt related to this lecture kindly give #Comment & if you want more videos related to #Fluid #Mechanics then #Subscribe the channel for more updates"  
[YouTube Link](https://youtube.com/watch?v=OhI303qiZdQ)  2025-09-14T06:37Z [---] followers, [--] engagements


"Lecture [--] #Momentum #Equation #Derivation for #Force exerted by a #Flowing #Fluid in a #Pipe #Bend In this lecture the following points are discussed: #Momentum #Equation #Derivation for #Force exerted by a #Flowing #Fluid in a #Pipe #Bend If any doubt related to this lecture kindly give #Comment & if you want more videos related to #Fluid Mechanics then #Subscribe the channel for more updates"  
[YouTube Link](https://youtube.com/watch?v=PU2O3AXXmrk)  2025-05-07T03:31Z [---] followers, [--] engagements


"Lecture [--] #Continuity #Equation for #Cartesian Coordinate System for #3D fluid flow In this lecture the following points are discussed: #Continuity #Equation for #Cartesian Coordinate System for #3D fluid flow If any doubt related to this lecture kindly give #Comment & if you want more videos related to #Fluid Mechanics then #Subscribe the channel for more updates"  
[YouTube Link](https://youtube.com/watch?v=PU7321mw1fA)  2025-04-10T11:01Z [---] followers, [--] engagements


"Lecture [---] Turbulent Boundary Layer on a Flat Plate in #Fluid #Mechanics In this lecture the following points are discussed: Turbulent Boundary Layer on a Flat Plate in #Fluid #Mechanics If any doubt related to this lecture kindly give #Comment If you want more videos related to #Fluid #Mechanics then #Subscribe the channel for more updates"  
[YouTube Link](https://youtube.com/watch?v=P_QKJ_8lZKQ)  2025-10-12T06:37Z [---] followers, [--] engagements


"Lecture [---] #Problem Solved on #Minor Losses #Flowing Through the #Pipe due to #Sudden #Enlargement In this lecture the following points are discussed: #Problem Solved on #Minor Losses #Flowing Through the #Pipe due to #Sudden #Enlargement Problem 1: The rate of flow of water through a horizontal pipe is [----] m3/s. The diameter of the pipe which is [---] mm is suddenly enlarged to [---] mm. The pressure intensities in the smaller pipe is [------] N/cm2. Determine (i) loss of head due to sudden enlargement (ii) pressure intensity in the larger pipe and (iii) power lost due to enlargement. If any"  
[YouTube Link](https://youtube.com/watch?v=QV_BkbbMG6U)  2025-07-21T08:35Z [---] followers, [--] engagements


"Lecture [--] #Problem Solved on #Orificemeter #Fluid #Mechanics In this lecture the following points are discussed: #Problem Solved on #Orificemeter #Fluid #Mechanics Problem 1: An orifice meter with orifice diameter [--] cm is inserted in a pipe of [--] cm diameter. The pressure gauges fitted upstream & downstream of the orifice meter gives readings of [-----] N/cm2 & [----] N/cm2 respectively. Co-efficient of discharge for the orifice meter is given as [---]. Find the discharge of water through pipe. If any doubt related to this lecture kindly give #Comment & if you want more videos related to #Fluid"  
[YouTube Link](https://youtube.com/watch?v=QqKj1vH6B0E)  2025-05-04T09:05Z [---] followers, [--] engagements


"Lecture [---] Momentum Thickness in #Fluid #Mechanics In this lecture the following points are discussed: Momentum Thickness in #Fluid #Mechanics If any doubt related to this lecture kindly give #Comment If you want more videos related to #Fluid #Mechanics then #Subscribe the channel for more updates"  
[YouTube Link](https://youtube.com/watch?v=RPgDqvzZqKQ)  2025-09-26T03:57Z [---] followers, [--] engagements


"Lecture [--] #Free liquid Jets #Maximum height attained#Time of flight #Horizontal range of liquid jet In this lecture the following points are discussed: Free liquid Jets in #Fluid #Mechanics #Maximum height attained by the jet #Time of flight #Time to reach highest point #Horizontal range of the jet #Value for theta maximum range If any doubt related to this lecture kindly give #Comment & if you want more videos related to #Fluid Mechanics then #Subscribe the channel for more updates"  
[YouTube Link](https://youtube.com/watch?v=RZIDg3sxKRk)  2025-05-19T05:39Z [---] followers, [--] engagements


"Lecture [---] #Fluid Flow Through #Equivalent Pipes in #Fluid #Mechanics In this lecture the following points are discussed: #Fluid Flow Through #Equivalent Pipes in #Fluid #Mechanics If any doubt related to this lecture kindly give #Comment & if you want more videos related to #Fluid #Mechanics then #Subscribe the channel for more updates"  
[YouTube Link](https://youtube.com/watch?v=RgLQ_xU2ECU)  2025-08-02T07:27Z [---] followers, [--] engagements


"Lecture [--] Problem solved on #Meta centric height In this lecture Problem Solved on #Meta centric height in Liquid. Problem 1: A block of wood (specific gravity = 0.7) floats in water. Determine the meta-centric height of the block if its size is 2m x 1m x [---] m. If any doubt related to this lecture kindly give #Comment & if you want more videos related to #Fluid Mechanics then #Subscribe the channel for more updates"  
[YouTube Link](https://youtube.com/watch?v=RnSxhbfVjnc)  2025-04-03T03:52Z [---] followers, [--] engagements


"Lecture [---] Dimensionless Numbers Reynolds Froude Euler Weber & Mach Number in #Fluid #Mechanics In this lecture the following points are discussed: Dimensionless Numbers Reynolds Froude Euler Weber & Mach Number in #Fluid #Mechanics If any doubt related to this lecture kindly give #Comment & if you want more videos related to #Fluid #Mechanics then #Subscribe the channel for more updates"  
[YouTube Link](https://youtube.com/watch?v=S7_t-mKDQ68)  2025-09-15T03:36Z [---] followers, [--] engagements


"Lecture [--] Types of Motion #Linear Transition #Linear Deformation #Angular Deformation #Rotation In this lecture the following points are discussed: #Types of Motion in Fluid Mechanics #Linear Transition #Linear Deformation #Angular Deformation #Rotation If any doubt related to this lecture kindly give #Comment & if you want more videos related to #Fluid Mechanics then #Subscribe the channel for more updates"  
[YouTube Link](https://youtube.com/watch?v=SEFj7AqIsds)  2025-04-20T06:39Z [---] followers, [--] engagements


"Lecture [--] #Curved #Surface #Submerged in Liquid In this lecture #Curved Surface #Submerged in Liquid is explained. If any doubt related to this lecture kindly give #Comment & if you want more videos related to #Fluid Mechanics then #Subscribe the channel for more updates"  
[YouTube Link](https://youtube.com/watch?v=Tp8rFRS3UWo)  2025-03-27T03:59Z [---] followers, [--] engagements


"Lecture [---] Problem Solved on Laminar Boundary Layer Flow in #Fluid #Mechanics In this lecture the following points are discussed: Problem Solved on Laminar Boundary Layer Flow in #Fluid #Mechanics Problem 1: For the velocity profile of laminar boundary layer as: u/U = 3/2(y/) 1/2(y/)3. Find the thickness of boundary layer and the shear stress 1.5m from the leading edge of a plate. The plate is [--] m long and [---] m wide and is placed in water which is moving with a velocity of [---] mm per second. Find the total drag force on the plate if for water = [----] poise. If any doubt related to this"  
[YouTube Link](https://youtube.com/watch?v=U9-9fAgT3Kk)  2025-10-11T03:38Z [---] followers, [--] engagements


"Lecture [--] #Problem #Solved on #Viscous #Resistance on #Foot #Step #Bearing in #Fluid #Mechanics In this lecture the following points are discussed: #Problem #Solved on #Viscous #Resistance on #Foot #Step #Bearing in #Fluid #Mechanics Problem 1: Find the torque required to rotate a vertical shaft of diameter [---] mm at [---] r.p.m. The lower end of the shaft rests in a foot-step bearing. The end of the shaft and surface of the bearing are both flat and are separated by an oil film of thickness [---] mm. The viscosity of the oil is given [---] poise. Problem 2: Find the power required to rotate a"  
[YouTube Link](https://youtube.com/watch?v=U9IJOn198n8)  2025-06-11T09:06Z [---] followers, [--] engagements


"Lecture [--] #Vortex flow #Forced Vortex flow and #Free Vortex flow in #Fluid Mechanics In this lecture the following points are discussed: #Vortex flow #Forced Vortex flow and #Free Vortex flow in Fluid Mechanics If any doubt related to this lecture kindly give #Comment & if you want more videos related to #Fluid Mechanics then #Subscribe the channel for more updates"  
[YouTube Link](https://youtube.com/watch?v=UScngNEsVVE)  2025-04-22T12:14Z [---] followers, [--] engagements


"Lecture [---] #Water #Hammer (WH) in Pipes Effects Causes and Prevention of WH in Fluid Mechanics In this lecture the following points are discussed: #Water #Hammer (WH) in Pipes Effects Causes and Prevention of WH in Fluid Mechanics If any doubt related to this lecture kindly give #Comment & if you want more videos related to #Fluid #Mechanics then #Subscribe the channel for more updates"  
[YouTube Link](https://youtube.com/watch?v=UY7N49u1Bjw)  2025-08-20T03:39Z [---] followers, [--] engagements


"Lecture [--] #Power #Absorbed in #Viscous #Flow #Viscous #Resistance in #Journal #Bearing In this lecture the following points are discussed: #Power #Absorbed in #Viscous #Flow and #Viscous #Resistance in #Journal #Bearing in Fluid Mechanics If any doubt related to this lecture kindly give #Comment & if you want more videos related to #Fluid #Mechanics then #Subscribe the channel for more updates"  
[YouTube Link](https://youtube.com/watch?v=Ukqh5nzkCW0)  2025-06-07T16:30Z [---] followers, [--] engagements


"Lecture [---] #Rayleigh #Method of #Dimensional #Analysis [--] #Variables in #Fluid #Mechanics In this lecture the following points are discussed: #Rayleigh #Method of #Dimensional #Analysis [--] #Variables in #Fluid #Mechanics If any doubt related to this lecture kindly give #Comment & if you want more videos related to #Fluid #Mechanics then #Subscribe the channel for more updates"  
[YouTube Link](https://youtube.com/watch?v=UsXZSTA9kyM)  2025-09-01T08:40Z [---] followers, [--] engagements


"Lecture [---] #Euler Model Law #Weber Model Law & #Mach Model Law in #Fluid #Mechanics In this lecture the following points are discussed: #Euler Model Law #Weber Model Law & #Mach Model Law in #Fluid #Mechanics If any doubt related to this lecture kindly give #Comment If you want more videos related to #Fluid #Mechanics then #Subscribe the channel for more updates"  
[YouTube Link](https://youtube.com/watch?v=VmB-vxGp3z4)  2025-09-20T06:36Z [---] followers, [--] engagements


"Lecture [---] Problem Solved on #Power #Transmitted Through #Nozzle1 in #Fluid #Mechanics In this lecture the following points are discussed: Problem Solved on #Power #Transmitted Through #Nozzle1 in #Fluid #Mechanics Problem: Find the maximum power transmitted by a jet of water discharging freely out of a nozzle to a pipe 300m long and 100mm diameter with coefficient of friction as [----]. The available head at the nozzle is 90m. If any doubt related to this lecture kindly give #Comment & if you want more videos related to #Fluid Mechanics then #Subscribe the channel for more updates"  
[YouTube Link](https://youtube.com/watch?v=Wcn-UgIUExk)  2025-08-18T06:17Z [---] followers, [--] engagements


"Lecture [--] #Problem on #Euler's Equation of #Motion & #Bernoulli's #Equation #Fluid #Mechanics In this lecture the following points are discussed: #Problem on #Euler's Equation of #Motion & #Bernoulli's #Equation #Fluid #Mechanics Problem 1: The water is flowing through a pipe having diameters [--] cm and [--] cm at section [--] and [--] respectively. The rate of flow through pipe is [--] litres/s The section [--] is [--] m above datum and section [--] is [--] m above datum If the pressure at section [--] is [--]. [--] N/cm2 find the intensity of pressure at section [--]. If any doubt related to this lecture kindly give"  
[YouTube Link](https://youtube.com/watch?v=X7MIf_GnBqA)  2025-04-29T03:22Z [---] followers, [--] engagements


"Lecture [--] #Bernoullis #Equation for #Real #Fluid & its #Problem #Fluid #Mechanics In this lecture the following points are discussed: #Bernoullis #Equation for #Real #Fluid & its #Problem #Fluid #Mechanics Problem 1: A pipeline carrying oil of specific gravity [----] changes in diameter from [---] mm diameter at a position A to [---] mm Diameter at a Position B which is [--] meters at a higher level. If the pressures at A and B are [----] N/cm2 & [-----] N/cm2 respectively and the discharge is [---] litres/s determine the loss of head and direction of flow. If any doubt related to this lecture kindly give"  
[YouTube Link](https://youtube.com/watch?v=Xbwoz1FCVCo)  2025-04-30T03:44Z [---] followers, [--] engagements


"Lecture [--] #Equation of #Motion for #Vortex Flow in #Fluid Mechanics In this lecture the following points are discussed: General #Equation of #Motion for #Vortex Flow in #Fluid Mechanics If any doubt related to this lecture kindly give #Comment & if you want more videos related to #Fluid Mechanics then #Subscribe the channel for more updates"  
[YouTube Link](https://youtube.com/watch?v=XqEJGwEQNzo)  2025-04-23T12:12Z [---] followers, [--] engagements


"Lecture [---] #Resistance of #Smooth and #Rough Pipes #Moody #Diagram in #Fluid #Mechanics In this lecture the following points are discussed: #Resistance of #Smooth and #Rough Pipes #Moody #Diagram in #Fluid #Mechanics #Velocity #Distribution for #Turbulent Flow in terms of #Average #Velocity https://youtu.be/5okCVnH87HQ #Velocity #Distribution for #Turbulent Flow in #Smooth #Pipes and #Rough #Pipes https://youtu.be/YSQW_Rbdtxs If any doubt related to this lecture kindly give #Comment & if you want more videos related to #Fluid #Mechanics then #Subscribe the channel for more updates"  
[YouTube Link](https://youtube.com/watch?v=Y-RN1CHff7o)  2025-07-13T04:17Z [---] followers, [--] engagements


"Lecture [--] #Velocity and #Acceleration in fluid flow Kinematics #Fluid Mechanics In this lecture the following points are discussed: #Velocity and #Acceleration in fluid flow Kinematics If any doubt related to this lecture kindly give #Comment & if you want more videos related to #Fluid Mechanics then #Subscribe the channel for more updates"  
[YouTube Link](https://youtube.com/watch?v=Y1TukCuerGQ)  2025-04-12T03:19Z [---] followers, [--] engagements


"Lecture [---] #Velocity #Distribution for #Turbulent Flow in #Smooth #Pipes and #Rough #Pipes In this lecture the following points are discussed: #Velocity #Distribution for #Turbulent Flow in #Smooth #Pipes and #Rough #Pipes in #Fluid #Mechanics #Velocity #Distribution in #Turbulent #Flow in #Pipes in #Fluid #Mechanics https://youtu.be/DKivDCati84 #Hydrodynamically #Smooth and #Rough #Boundaries for Turbulent Flow in #Fluid #Mechanics https://youtu.be/3ef1HWOV5LM If any doubt related to this lecture kindly give #Comment & if you want more videos related to #Fluid #Mechanics then #Subscribe the"  
[YouTube Link](https://youtube.com/watch?v=YSQW_Rbdtxs)  2025-07-04T12:09Z [---] followers, [--] engagements


"Lecture [---] #Hydraulic #Gradient #Line (HGL) and #Total #Energy #Line (TEL) in #Fluid #Mechanics In this lecture the following points are discussed: #Hydraulic #Gradient #Line (HGL) and #Total #Energy #Line (TEL) in #Fluid #Mechanics If any doubt related to this lecture kindly give #Comment & if you want more videos related to #Fluid #Mechanics then #Subscribe the channel for more updates"  
[YouTube Link](https://youtube.com/watch?v=YwyRNgTV3e0)  2025-07-29T06:23Z [---] followers, [--] engagements


"Lecture [--] #Problem Solved on #Coefficient of #Viscosity by #Falling #Sphere #Resistance #Method In this lecture the following points are discussed: #Problem Solved on #Coefficient of #Viscosity by #Falling #Sphere #Resistance #Method Problem 1: The viscosity of an oil of sp. gr. [---] is measured by a capillary tube of diameter [--] mm. The difference of pressure head between two points [--] m apart is [---] m of water. The mass of oil collected in a measuring tank is [--] kg in [---] seconds. Find the viscosity of oil. If any doubt related to this lecture kindly give #Comment & if you want more videos"  
[YouTube Link](https://youtube.com/watch?v=Zb6fuNF3T5k)  2025-06-17T08:54Z [---] followers, [--] engagements


"Lecture [--] #Correction #Factor and #Momentum #Correction #Factor in #Fluid Mechanics In this lecture the following points are discussed: #Correction #Factor and #Momentum #Correction #Factor in #Fluid Mechanics If any doubt related to this lecture kindly give #Comment & if you want more videos related to #Fluid #Mechanics then #Subscribe the channel for more updates"  
[YouTube Link](https://youtube.com/watch?v=_kFa7iIfJ2c)  2025-06-04T06:42Z [---] followers, [--] engagements


"Lecture [--] #Rate of Flow or #Discharge of fluid and #Continuity Equation of Fluid In this lecture the following points are discussed: #Rate of Flow/Discharge #Continuity Equation If any doubt related to this lecture kindly give #Comment & if you want more videos related to #Fluid Mechanics then #Subscribe the channel for more updates"  
[YouTube Link](https://youtube.com/watch?v=_n2wO0lybko)  2025-04-08T03:33Z [---] followers, [--] engagements


"Lecture [--] #Problem #Solved on #Viscous #Resistance on #Collar #Bearing in #Fluid #Mechanics In this lecture the following points are discussed: #Problem #Solved on #Viscous #Resistance on #Collar #Bearing in #Fluid #Mechanics Problem 1: A collar bearing having external and internal diameters [---] mm and [---] mm respectively is used to take the thrust of a shaft. An oil film of thickness [----] mm and of viscosity [----] poise is maintained between the collar surface and the bearing. Find the power lost in overcoming the viscous resistance of oil when the shaft is running at [---] r.p.m. If any doubt"  
[YouTube Link](https://youtube.com/watch?v=ab1fE0TwFNM)  2025-06-13T10:37Z [---] followers, [--] engagements


"Lecture [---] #Problem Solved on #Turbulent Flow in #Pipes Calculate #Shear Stress #Fluid #Mechanics In this lecture the following points are discussed: #Problem Solved on #Turbulent Flow in #Pipes Calculate #Shear Stress #Fluid #Mechanics Problem 1: Determine the wall shearing stress in a pipe of diameter [---] mm carries water. The velocities at the pipe center and [--] mm from the pipe center are [--] m/s and [---] m/s respectively. The flow in pipe is given as turbulent. #Velocity #Distribution for #Turbulent Flow in #Smooth #Pipes and #Rough #Pipes https://youtu.be/YSQW_Rbdtxs #Hydrodynamically"  
[YouTube Link](https://youtube.com/watch?v=bdNUhjDCuYc)  2025-07-06T08:38Z [---] followers, [--] engagements


"Lecture [---] Energy Thickness in #Fluid #Mechanics In this lecture the following points are discussed: Energy Thickness in #Fluid #Mechanics If any doubt related to this lecture kindly give #Comment If you want more videos related to #Fluid #Mechanics then #Subscribe the channel for more updates"  
[YouTube Link](https://youtube.com/watch?v=cTQibjjfVw0)  2025-09-27T06:39Z [---] followers, [--] engagements


"Lecture [---] Problem Solved on Laminar Boundary Layer Flow in #Fluid #Mechanics In this lecture the following points are discussed: Problem Solved on Laminar Boundary Layer Flow in #Fluid #Mechanics Problem 1: For the velocity profile of laminar boundary layer flows given as: u/U = 2(y/) (y/)2. Find the thickness of boundary layer at the end of the plate and the drag force on the side of the plate [--] m long and [---] m wide when placed in water flowing with a velocity of [----] m/s. Also calculate the value of co-efficient of drag. Take viscosity for water = [-----] Ns/m2. If any doubt related to"  
[YouTube Link](https://youtube.com/watch?v=dMiecOMoJ2k)  2025-10-09T03:45Z [---] followers, [--] engagements


"Lecture [---] Power Transmitted Through Nozzle Condition for Maximum Power Transmission Through Nozzle In this lecture the following points are discussed: #Power #Transmitted Through #Nozzle #Condition for #Maximum #Power #Transmission Through #Nozzle in #Fluid #Mechanics https://youtu.be/Lh39Wi3CmUM If any doubt related to this lecture kindly give #Comment & if you want more videos related to #Fluid #Mechanics then #Subscribe the channel for more updates"  
[YouTube Link](https://youtube.com/watch?v=ebhYXab2pHc)  2025-08-13T09:19Z [---] followers, [--] engagements


"Lecture [--] #Projection of Line Part 3#Line inclined to both H.P. & V.P.#AutoCAD A detail explanation given on how to draw #Projection of Line in #AutoCAD as well as manually. [--] Line inclined to both H.P. & V.P. If any doubt related to this lecture kindly give #Comment and if you want more videos related to #AutoCAD then #Subscribe the channel for more updates"  
[YouTube Link](https://youtube.com/watch?v=ecRv1gQ2VOw)  2024-10-23T11:47Z [---] followers, [---] engagements


"Lecture [--] #Problem #Solved on #Viscous #Resistance on #Journal #Bearing in #Fluid #Mechanics In this lecture the following points are discussed: #Problem #Solved on #Viscous #Resistance on #Journal #Bearing in #Fluid #Mechanics Problem 1: A shaft having a diameter of [--] mm rotates centrally in a journal bearing having a diameter of [-----] mm and length [---] mm. The angular space between the shaft and the bearing is filled with oil having viscosity of [---] poise. Determine the power absorbed in the bearing when the speed of rotation is [---] rpm. If any doubt related to this lecture kindly give"  
[YouTube Link](https://youtube.com/watch?v=efYQJ5RQHuM)  2025-06-09T12:12Z [---] followers, [--] engagements


"Lecture [---] Problem Solved on Euler Weber & Mach Model Law in #Fluid #Mechanics In this lecture the following points are discussed: Problem Solved on Euler Weber & Mach Model Law in #Fluid #Mechanics Problem 1: The pressure drop in an aeroplane model of size 1/40 of its prototype is [--] N/cm2. The model is tested in water. Find the corresponding pressure drop in the prototype. Take density of air =1.24 kg/m3. The viscosity of water is [----] poise while the viscosity of air is [-------] poise. If any doubt related to this lecture kindly give #Comment & if you want more videos related to #Fluid"  
[YouTube Link](https://youtube.com/watch?v=f2al3DjPWWQ)  2025-09-22T04:01Z [---] followers, [--] engagements


"Lecture [--] #Determining #Coefficient of #Viscosity by #Rotating #Cylinder #Method #Fluid #Mechanics In this lecture the following points are discussed: #Determining #Coefficient of #Viscosity by #Rotating #Cylinder #Method #Fluid #Mechanics If any doubt related to this lecture kindly give #Comment & if you want more videos related to #Fluid #Mechanics then #Subscribe the channel for more updates"  
[YouTube Link](https://youtube.com/watch?v=fgCkRnmfi40)  2025-06-18T09:53Z [---] followers, [--] engagements


"Lecture [--] #Flow #Measuring #Device #Flow #Nozzle or #Nozzle #Meter in #Fluid #Mechanics In this lecture the following points are discussed: #Flow #Measuring #Device #Flow #Nozzle or #Nozzle #Meter in #Fluid #Mechanics #Application #Advantages #Disadvantages of #Flow #Nozzle If any doubt related to this lecture kindly give #Comment & if you want more videos related to #Fluid Mechanics then #Subscribe the channel for more updates"  
[YouTube Link](https://youtube.com/watch?v=g5c_-hbtYtk)  2025-05-21T03:45Z [---] followers, [--] engagements


"Lecture [---] #Minor #Losses through the #Pipe Due to #Sudden #Enlargement in Pipe in #Fluid Mechanics In this lecture the following points are discussed: #Minor #Losses through the #Pipe due to #Sudden #Enlargement in #Fluid Mechanics If any doubt related to this lecture kindly give #Comment & if you want more videos related to #Fluid #Mechanics then #Subscribe the channel for more updates"  
[YouTube Link](https://youtube.com/watch?v=gSBo5ciycgo)  2025-07-20T10:34Z [---] followers, [--] engagements


"Lecture [--] Problem on #Curved #Plane #Surfaces #Submerged in Liquid In this lecture Problem Solved on #Curved Plane Surfaces Submerged in Liquid. Problem 1: Compute the horizontal and vertical components of the total force acting on a curved surfaceAB which is in the form of a quadrant of a circle of radius2mas shown in figure. Take the width of the gate as unity. If any doubt related to this lecture kindly give #Comment & if you want more videos related to #Fluid Mechanics then #Subscribe the channel for more updates"  
[YouTube Link](https://youtube.com/watch?v=glPkPQm26_k)  2025-03-28T06:08Z [---] followers, [--] engagements


"Lecture [---] #Minor Losses Through the #Pipe due to #Sudden #Contraction in #Fluid Mechanics In this lecture the following points are discussed: #Minor Losses Through the #Pipe due to #Sudden #Contraction in #Fluid Mechanics If any doubt related to this lecture kindly give #Comment & if you want more videos related to #Fluid #Mechanics then #Subscribe the channel for more updates"  
[YouTube Link](https://youtube.com/watch?v=hXjeNYhQLJU)  2025-07-22T11:20Z [---] followers, [--] engagements


"Lecture [--] #Determination of #Coefficient of #Viscosity by #Falling #Sphere #Resistance #Method In this lecture the following points are discussed: #Determination of #Coefficient of #Viscosity by #Falling #Sphere #Resistance #Method in #Fluid #Mechanics Concept of Stokes Law If any doubt related to this lecture kindly give #Comment & if you want more videos related to #Fluid #Mechanics then #Subscribe the channel for more updates"  
[YouTube Link](https://youtube.com/watch?v=i0_jJn6gcrA)  2025-06-16T08:35Z [---] followers, [--] engagements


"Lecture [--] #Problem Solved on #Free #liquid #Jets in #Fluid #Mechanics In this lecture the following points are discussed: #Problem Solved on #Free #liquid #Jets in #Fluid #Mechanics Problem 1: A vertical wall is of [--] m in height. If a jet of water is coming out from a nozzle with velocity of [--] m/s. The nozzle is situated at a distance of 20m from the vertical wall. Find the angle of projection of the nozzle to the horizontal so that the jet of water just clears the top of wall. If any doubt related to this lecture kindly give #Comment & if you want more videos related to #Fluid Mechanics"  
[YouTube Link](https://youtube.com/watch?v=isHo_JNvOac)  2025-05-20T03:47Z [---] followers, [--] engagements


"Lecture [--] #Flow #Measuring #Device #Elbow #meter in #Fluid #Mechanics In this lecture the following points are discussed: #Flow #Measuring #Device #Elbow meter in #Fluid #Mechanics #Application #Advantages #Disadvantages of #Elbow meter If any doubt related to this lecture kindly give #Comment & if you want more videos related to #Fluid #Mechanics then #Subscribe the channel for more updates"  
[YouTube Link](https://youtube.com/watch?v=jH1fm97EKQg)  2025-05-28T04:52Z [---] followers, [--] engagements


"Lecture [---] #Minor #Loss in the #Pipe flow due to #Obstruction in the #Pipe in #Fluid #Mechanics In this lecture the following points are discussed: #Minor #Loss in the #Pipe flow due to #Obstruction in the #Pipe in #Fluid #Mechanics If any doubt related to this lecture kindly give #Comment & if you want more videos related to #Fluid #Mechanics then #Subscribe the channel for more updates"  
[YouTube Link](https://youtube.com/watch?v=jKXHbkbK0Yk)  2025-07-26T08:56Z [---] followers, [--] engagements


"Lecture [---] #Problem Solved on #Turbulent Flow in Pipes #Calculation of #Discharge #Fluid #Mechanics In this lecture the following points are discussed: #Problem Solved on #Turbulent Flow in Pipes #Calculation of #Discharge in #Fluid #Mechanics Problem 1: For turbulent flow in a pipe of diameter [---] mm find the discharge when the center line velocity is [---] m/s and the velocity at a point [---] mm from the center as measured by pitot tube is 1.6m/s. If any doubt related to this lecture kindly give #Comment & if you want more videos related to #Fluid Mechanics then #Subscribe the channel for"  
[YouTube Link](https://youtube.com/watch?v=k96r_Acc5QI)  2025-07-09T10:16Z [---] followers, [--] engagements


"Lecture [--] #Equation of #Motion for #Forced #Vortex Flow in #Fluid Mechanics In this lecture the following points are discussed: #Equation of #Motion for #Forced #Vortex Flow in #Fluid Mechanics If any doubt related to this lecture kindly give #Comment & if you want more videos related to #Fluid Mechanics then #Subscribe the channel for more updates"  
[YouTube Link](https://youtube.com/watch?v=kUPhQ_MKTwE)  2025-04-24T03:37Z [---] followers, [--] engagements


"Lecture [--] #Problem Solved on #Venturimeter #Fluid #Mechanics In this lecture the following points are discussed: #Problem Solved on #Venturimeter #Fluid #Mechanics Problem 1: An oil of specific gravity [---] is flowing through venturimeter having inlet diameter [--] cm and throat diameter [--] cm. The oil-mercury differential manometer shows the reading of [--] cm. Calculate discharge of oil through the horizontal venturimeter take Cd = [----]. If any doubt related to this lecture kindly give #Comment & if you want more videos related to #Fluid Mechanics then #Subscribe the channel for more updates"  
[YouTube Link](https://youtube.com/watch?v=kwn46Rg9A-g)  2025-05-02T03:30Z [---] followers, [--] engagements


"Lecture [--] #Frictional #Loss in #Pipe #Flow #Expression for Loss of head #Darcy Weisbach Equation In this lecture the following points are discussed: #Frictional #Loss in #Pipe #Flow #Expression for Loss of head due to friction #Darcy-Weisbach Equation in #Fluid Mechanics #Major Losses in Pipe Flow If any doubt related to this lecture kindly give #Comment & if you want more videos related to #Fluid #Mechanics then #Subscribe the channel for more updates"  
[YouTube Link](https://youtube.com/watch?v=lQ3gopr_umU)  2025-06-27T12:03Z [---] followers, [--] engagements


"Lecture [---] Boundary Layer Thickness and Displacement Thickness in #Fluid #Mechanics In this lecture the following points are discussed: Boundary Layer Thickness and Displacement Thickness in #Fluid #Mechanics If any doubt related to this lecture kindly give #Comment If you want more videos related to #Fluid #Mechanics then #Subscribe the channel for more updates"  
[YouTube Link](https://youtube.com/watch?v=lbziclG0AZM)  2025-09-25T03:40Z [---] followers, [--] engagements


"Lecture [---] Expression of [--] Cd from Velocity Profile of Laminar Boundary Layer Fluid Mechanics In this lecture the following points are discussed: Expression of [--] Cd from Velocity Profile of Laminar Boundary Layer in #Fluid #Mechanics Problem 1: For the velocity profile of laminar boundary layer flows given as: u/U = 2(y/) (y/)2. Find an expression for boundary layer thickness shear stress and coefficient of drag in terms of Reynolds number. If any doubt related to this lecture kindly give #Comment If you want more videos related to #Fluid #Mechanics then #Subscribe the channel for more"  
[YouTube Link](https://youtube.com/watch?v=lhAiq18YH7A)  2025-10-08T06:18Z [---] followers, [--] engagements


"Lecture [--] #Problem on #Flow of #Viscous #Fluid #Through #Two #Parallel #Plates in #Fluid #Mechanics In this lecture the following points are discussed: #Problem on #Flow of #Viscous #Fluid #Through #Two #Parallel #Plates in #Fluid #Mechanics Problem 1: Calculate the pressure gradient along the flow average velocity and the discharge for an oil viscosity [----] Ns/m2 flowing between two stationary parallel plates [--] m wide maintained [--] mm apart. The velocity midway between the plates is 2m/s. Problem 2: Water at15Cflows between two large plates at a distance of1.6mmapart. Determine"  
[YouTube Link](https://youtube.com/watch?v=m55HRmKYtCc)  2025-06-01T10:04Z [---] followers, [--] engagements


"Lecture [---] #Model #Analysis in #Fluid #Mechanics In this lecture the following points are discussed: #Model #Analysis in #Fluid #Mechanics If any doubt related to this lecture kindly give #Comment & if you want more videos related to #Fluid #Mechanics then #Subscribe the channel for more updates"  
[YouTube Link](https://youtube.com/watch?v=mbHBqSfM7g4)  2025-09-03T03:28Z [---] followers, [--] engagements


"Lecture [---] Shear Stress in Turbulent Flow Boussinesq Equation Expression for Turbulent Shear Stress In this lecture the following points are discussed: #Shear Stress in Turbulent Flow #Boussinesq Equation #Reynolds Expression for Turbulent Shear Stress in Fluid Mechanics https://youtu.be/zBjemPL1nfM If any doubt related to this lecture kindly give #Comment & if you want more videos related to #Fluid #Mechanics then #Subscribe the channel for more updates"  
[YouTube Link](https://youtube.com/watch?v=mrRhCVZC1ic)  2025-06-30T11:49Z [---] followers, [--] engagements


"Lecture [--] #Problem Solved on #Momentum #Equation #Fluid #Mechanics In this lecture the following points are discussed: #Problem Solved on #Momentum #Equation #Fluid #Mechanics Problem 1: A [--] reducing bend is connected in a pipeline the diameters at the inlet and outlet of the bend being [--] cm and [--] cm respectively. Find the force exerted by water on the bend if the intensity of pressure at the inlet of the bend is [-----] N/cm2. The rate of flow of water is [---] liters/s. If any doubt related to this lecture kindly give #Comment & if you want more videos related to #Fluid Mechanics then"  
[YouTube Link](https://youtube.com/watch?v=mtU3-c1cZlQ)  2025-05-17T04:59Z [---] followers, [--] engagements


"Lecture [--] Problem on #Buoyancy #Center of Buoyancy and #Force of Buoyancy of Liquid In this lecture Problem Solved on #Curved Plane Surfaces Submerged in Liquid. Problem 1: Find the volume of the water displaced and position of centre of buoyancy for a wooden block of width [---] m and a depth of [---] m when it flouts horizontally in water. The density of the wooden block is [---] kg/m3 and its length [--] m. Problem 2: Find the density of a metallic body which floats at the interface of mercury of specific gravity [----] and water such that 40% of its volume is sub-merged in mercury and 60% in water."  
[YouTube Link](https://youtube.com/watch?v=oyil2uBCGro)  2025-03-31T04:12Z [---] followers, [--] engagements


"Lecture [---] Power Transmission Through Pipes in #Fluid #Mechanics In this lecture the following points are discussed: Power Transmission Through Pipes in #Fluid #Mechanics If any doubt related to this lecture kindly give #Comment & if you want more videos related to #Fluid #Mechanics then #Subscribe the channel for more updates"  
[YouTube Link](https://youtube.com/watch?v=pIzFNTN-Gb0)  2025-08-08T06:05Z [---] followers, [--] engagements


"Lecture [--] #Orthographic #Projection Problem8 Draw #Orthographic View from #Isometric View #AutoCAD A detail explanation given on #Orthographic #Projection and how to draw #Orthographic View from #Isometric View of angle plates with slots and ribs in #AutoCAD. If any doubt related to this lecture kindly give #Comment & if you want more videos related to #AutoCAD then #Subscribe the channel for more updates"  
[YouTube Link](https://youtube.com/watch?v=pY6Rt89Mzh4)  2024-12-18T10:04Z [--] followers, [--] engagements


"Lecture [--] #Velocity Potential Function in #Fluid Mechanics In this lecture the following points are discussed: #Velocity Potential Function If any doubt related to this lecture kindly give #Comment & if you want more videos related to #Fluid Mechanics then #Subscribe the channel for more updates"  
[YouTube Link](https://youtube.com/watch?v=pbxNhmRZH18)  2025-04-16T14:30Z [---] followers, [--] engagements


"Lecture [---] Problem Solved on #Flow Through #Branched Pipes in #Fluid #Mechanics In this lecture the following points are discussed: Problem Solved on #Flow Through #Branched Pipes in #Fluid #Mechanics Problem 1: Three reservoirs A B and C are connected by a pipe system as shown in the figure. Find the discharge into or from reservoir B and C if the rate of flow from reservoir A is [--] liters/s. Find the height of water level in the reservoir C. Take f = [-----] for all pipes. If any doubt related to this lecture kindly give #Comment & if you want more videos related to #Fluid Mechanics then"  
[YouTube Link](https://youtube.com/watch?v=qNFQ3nzIcWQ)  2025-08-07T06:31Z [---] followers, [--] engagements


"Lecture [---] Problem Solved on Separation of Boundary Layer for a Curved Surface in #Fluid #Mechanics In this lecture the following points are discussed: Problem Solved on Separation of Boundary Layer for a Curved Surface in #Fluid #Mechanics Problem 1: For the following velocity profiles determine whether the flow has separated or on the verge of separation or will be attached with the surface. u/U = 3/2 (y/) 1/2 (y/)3 u/U = [--] (y/)2 (y/)3 u/U = [--] (y/) + (y/)2. If any doubt related to this lecture kindly give #Comment & if you want more videos related to #Fluid Mechanics then #Subscribe the"  
[YouTube Link](https://youtube.com/watch?v=r-U5m4HM3L4)  2025-10-17T06:12Z [---] followers, [--] engagements


"Lecture [--] #Flow of #Viscous #Fluid #Between #Two #Parallel #Plates in #Fluid Mechanics In this lecture the following points are discussed: #Flow of #Viscous #Fluid #Through #Two #Parallel #Pipe in #Fluid Mechanics #Velocity Distribution #Ratio of Maximum Velocity to Average Velocity #Pressure Drop #Shear Stress Distribution If any doubt related to this lecture kindly give #Comment & if you want more videos related to #Fluid #Mechanics then #Subscribe the channel for more updates"  
[YouTube Link](https://youtube.com/watch?v=sM-kGNpt4Ec)  2025-05-31T03:56Z [---] followers, [--] engagements


"Lecture26 #Hydrostatic Force #Vertical Plane Surfaces Submerged in Liquid Total & Center of Pressure In this lecture #Hydrostatic Forces #Vertical Plane Surfaces Submerged in Liquid. Identification of the following terms: #Total Pressure #Center of Pressure If any doubt related to this lecture kindly give #Comment & if you want more videos related to #Fluid Mechanics then #Subscribe the channel for more updates"  
[YouTube Link](https://youtube.com/watch?v=t9IQA0dFJ8M)  2025-03-22T06:17Z [---] followers, [--] engagements


"Lecture [--] #Pitot Tube #Derivation #Practical Application of #Bernoullis #Equation Fluid Mechanics In this lecture the following points are discussed: #Practical Application of #Bernoullis #Equation & # Pitot tube #Theory & its #Derivation in #Fluid #Mechanics If any doubt related to this lecture kindly give #Comment & if you want more videos related to #Fluid Mechanics then #Subscribe the channel for more updates"  
[YouTube Link](https://youtube.com/watch?v=u9D_QFa7A3w)  2025-05-05T04:19Z [---] followers, [--] engagements


"Lecture [--] #Flow of Viscous Fluid Through a Circular Pipe #Hagen Poiseuille Formula #Fluid Mechanics In this lecture the following points are discussed: #Flow of #Viscous #Fluid #Through a #Circular #Pipe #Hagen #Poiseuille #Formula in #Fluid #Mechanics #Velocity Distribution #Maximum Velocity & Average Velocity #Pressure Drop #Shear Stress If any doubt related to this lecture kindly give #Comment & if you want more videos related to #Fluid #Mechanics then #Subscribe the channel for more updates"  
[YouTube Link](https://youtube.com/watch?v=w7-8vJrzF88)  2025-05-29T04:02Z [---] followers, [--] engagements


"Lecture [---] #Problem Solved on Fluid #Flow Through #Parallel Pipes in #Fluid #Mechanics In this lecture the following points are discussed: #Problem Solved on Fluid #Flow Through #Parallel Pipes in #Fluid #Mechanics Problem 1: A main pipe divides into two parallel pipes which again form as one pipe. The length and diameter for the first parallel pipe are [----] m and [--] m respectively while the length and diameter for second parallel pipe are [----] m and [---] m respectively. Find the rate of flow in each parallel pipe if total flow in main pipe is [--] m3/s. The coefficient of friction for each pipe"  
[YouTube Link](https://youtube.com/watch?v=wJqTeJN9hfw)  2025-08-05T06:06Z [---] followers, [--] engagements


"Lecture [--] #Orificemeter#Derivation #Practical Application of #Bernoullis #EquationFluid Mechanics In this lecture the following points are discussed: #Practical Application of #Bernoullis #Equation & #Orificemeter #Theory & its #Derivation in #Fluid #Mechanics If any doubt related to this lecture kindly give #Comment & if you want more videos related to #Fluid Mechanics then #Subscribe the channel for more updates"  
[YouTube Link](https://youtube.com/watch?v=wKiI9YCT4PA)  2025-05-03T13:39Z [---] followers, [--] engagements


"Lecture [--] Problem on #Stream & #Velocity #Potential #Function in Fluid Mechanics In this lecture the following points are discussed: Problem on #Stream & #Velocity #Potential #Function in Fluid Mechanics Problem 1: If for a two-dimensional potential flow the velocity potential is given by =x(2y1) determine the velocity at the point P (45). Determine also the value of stream function at the point P. If any doubt related to this lecture kindly give #Comment & if you want more videos related to #Fluid Mechanics then #Subscribe the channel for more updates"  
[YouTube Link](https://youtube.com/watch?v=wWNYZpLx-gQ)  2025-04-19T08:24Z [---] followers, [--] engagements


"Lecture [--] #Continuity #Equation for #Polar Coordinate System in #2D fluid flow #Fluid Mechanics In this lecture the following points are discussed: #Continuity #Equation for #Polar Coordinate System in 2D fluid flow If any doubt related to this lecture kindly give #Comment & if you want more videos related to #Fluid Mechanics then #Subscribe the channel for more updates"  
[YouTube Link](https://youtube.com/watch?v=xSyl5vM8yOo)  2025-04-11T03:39Z [---] followers, [--] engagements


"Lecture [--] #Buoyancy #Center of Buoyancy and #Force of Buoyancy of Liquid In this lecture the following points are discussed: #Buoyancy #Center of Buoyancy #Force of Buoyancy If any doubt related to this lecture kindly give #Comment & if you want more videos related to #Fluid Mechanics then #Subscribe the channel for more updates"  
[YouTube Link](https://youtube.com/watch?v=x_44LOmAw6M)  2025-03-30T05:24Z [---] followers, [--] engagements


"Lecture [--] #Equation of #Motion for #Free #Vortex Flow in #Fluid Mechanics In this lecture the following points are discussed: #Equation of #Motion for #Free #Vortex Flow in #Fluid Mechanics If any doubt related to this lecture kindly give #Comment & if you want more videos related to #Fluid Mechanics then #Subscribe the channel for more updates"  
[YouTube Link](https://youtube.com/watch?v=y_RLN3PKibc)  2025-04-26T03:16Z [---] followers, [--] engagements


"Lecture [--] #Orthographic #Projection Problem9 Draw #Orthographic View from #Isometric View #AutoCAD A detail explanation given on #Orthographic #Projection and how to draw #Orthographic View from #Isometric View of angle plates with slots and ribs in #AutoCAD. If any doubt related to this lecture kindly give #Comment & if you want more videos related to #AutoCAD then #Subscribe the channel for more updates"  
[YouTube Link](https://youtube.com/watch?v=yvrmjcGATfc)  2024-12-18T12:04Z [--] followers, [--] engagements


"Lecture [--] #Expression for #Co-efficient of #Friction in Terms of #Shear #Stress in #Fluid Mechanics In this lecture the following points are discussed: #Expression for #Co-efficient of #Friction in Terms of #Shear #Stress in #Fluid Mechanics If any doubt related to this lecture kindly give #Comment & if you want more videos related to #Fluid #Mechanics then #Subscribe the channel for more updates"  
[YouTube Link](https://youtube.com/watch?v=zBjemPL1nfM)  2025-06-28T09:42Z [---] followers, [--] engagements


"Lecture [--] Characteristic Curve (Main Characteristic Curve) of Centrifugal Pump #Hydraulic #Machines Join this channel to get access to perks: https://www.youtube.com/channel/UCE7knjtf06Aar0EE9Qw7KPw/join In this lecture the following points are discussed: Characteristic Curve (Main Characteristic Curve) of Centrifugal Pump #Hydraulic #Machines If any doubt related to this lecture kindly give #Comment If you want more videos related to #Hydraulic #Machines then #Subscribe the channel & Press #Bell Icon for more updates #Share this lecture and channel to your friends"  
[YouTube Link](https://youtube.com/watch?v=IU-p6K8ikho)  2026-01-31T11:47Z [---] followers, [--] engagements

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