| Front | Time dilation |
| Back | [latex] $ T = \gamma T_0 $ [/latex] |
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| Front | [latex] $ d\tau $ [/latex] |
| Back | [latex] $ d\tau = (1-v^2/c^2)^{1/2} dt = dt/ \gamma_v$ [/latex] |
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| Front | Jacobian |
| Back | [latex] $ J = \det \left( \frac{\partial x'^a}{\partial x^b} \right)$ [/latex]Inverse[latex] $ J' = \det \left( \frac{\partial x^a}{\partial x'^b} \right) $ [/latex] |
| Tags |