Related changes
Jump to navigation
Jump to search
Enter a page name to see changes on pages linked to or from that page. (To see members of a category, enter Category:Name of category). Changes to pages on your Watchlist are in bold.
List of abbreviations:
- N
- This edit created a new page (also see list of new pages)
- m
- This is a minor edit
- b
- This edit was performed by a bot
- (±123)
- The page size changed by this number of bytes
4 May 2024
|
|
12:20 | Principle of Conservation of Energy 2 changes history +480 [Prime.mover (2×)] | |||
|
|
12:20 (cur | prev) +32 Prime.mover talk contribs | ||||
|
|
10:13 (cur | prev) +448 Prime.mover talk contribs | ||||
| N 10:11 | Kinetic Energy of Body at Constant Angular Speed diffhist +996 Prime.mover talk contribs (Created page with "== Theorem == Let $B$ be a body rotating at an angular speed $\omega$ about some axis of rotation $R$. Let $I$ denote the moment of inertia of $B$ about $R$. Then the kinetic energy $T$ of $B$ brought about by this rotation is given by: :$T = \dfrac {I \omega^2} 2$...") | ||||
| N 10:06 | Kinetic Energy of Body at Constant Speed diffhist +925 Prime.mover talk contribs (Created page with "== Theorem == Let $B$ be a body of mass $m$ moving at a speed of $v$. Let $v$ be considerably less than the speed of light. Then the kinetic energy $T$ of $B$ is given by: :$T \approx \dfrac {m v^2} 2$ {{expand|Add a subpage giving the relativistic KE of $B$}} == Proof == {{ProofWanted}} == Sources == * {{BookReference|...") | ||||