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$invariants
Two posts discuss isolated $j$-invariants arising from the modular curve $X_0(n)$. The topic is gaining traction with increased engagements.
About $invariants
This topic appears to be related to mathematical concepts, specifically focusing on $j$-invariants and modular curves.
Engagements: XXX #
Engagements 24-Hour Chart Data
Current Value: XXX
Daily Average: XX
1 Month: XXX +143%
1-Year High: XXX on 2025-07-28
1-Year Low: X on 2025-05-16
| Social Network | X |
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| Engagements | XXX |
Mentions: X #
Mentions 24-Hour Chart Data
Current Value: X
Daily Average: X
1 Month: X +300%
1-Year High: X on 2025-07-06
1-Year Low: X on 2025-05-16
| Social Network | X |
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| Mentions | X |
Creators: X #
Creators 24-Hour Chart Data
X unique social accounts have posts mentioning $invariants in the last XX hours which is up XXX% from X in the previous XX hours
Daily Average: X
1 Month: X +100%
1-Year High: X on 2025-07-06
1-Year Low: X on 2025-05-16
Top assets mentioned In the posts about $invariants in the last XX hours
Top topics mentioned In the posts about $invariants in the last XX hours
Top Social Posts #
Top posts by engagements in the last XX hours
Showing only X posts for non-authenticated requests. Use your API key in requests for full results.
"Isolated $j$-invariants arising from the modular curve $X_0(n)$"
@PQBW on X 2025-07-28 09:42:44 UTC XX followers, XX engagements
"Meghan Lee: Isolated $j$-invariants arising from the modular curve $X_0(n)$"
@mathNTb on X 2025-07-28 05:25:23 UTC 1590 followers, XXX engagements