# Změny

,  před 8 měsíci
m
# $p = b_0 + h\rho g\,\!$
# $E_k = \tfrac{1}{2} mv^2$
# $\mathbfboldsymbol{F}= Q(\mathbfboldsymbol{E} + \mathbfboldsymbol{v} \times \mathbfboldsymbol{B})$ resp. $\vec F = Q(\vec E + \vec v \times \vec B)$
# $\rho = \frac{\mathrm{d}m}{\mathrm{d}V}$
# $\oint_S \mathbfboldsymbol{D} \cdot \mathrm{d} \mathbfboldsymbol{A} = Q$ resp. $\oint_S \vec D \cdot \mathrm{d} \vec A = Q$
# $\left( \frac{\partial U}{\partial V} \right) _T = T\left( \frac{\partial p}{\partial T} \right) _V - p$
# $y = r\mathrm{e} ^{-bt}\sin (\omega t + \varphi)$