Print Resource | TEKS Guide

impulse	$F_{net} Δ t$
impulse–momentum theorem	$Δ p = F_{net} Δ t$
linear momentum	$p = m v$
Newton’s second law in terms of momentum	$F_{net} = \frac{Δ p}{Δ t}$

law of conservation of momentum	p_tot = constant, or p_tot = p′_tot
conservation of momentum for two objects	p₁ + p₂ = constant, or p₁ + p₂ = p′₁ + p′₂
angular momentum	L = I $ω$

conservation of momentum in an elastic collision	$m_{1} v_{1} + m_{2} v_{2} = m_{1} {v^{'}}_{1} + m_{2} {v^{'}}_{2},$
conservation of momentum in an inelastic collision	$m_{1} v_{1} + m_{2} v_{2} = (m_{1} + m_{2}) v^{'}$
conservation of momentum along x-axis for 2D collisions	$m_{1} v_{1} = m_{1} {v^{'}}_{1} \cos θ_{1} + m_{2} {v^{'}}_{2} \cos θ_{2}$
conservation of momentum along y-axis for 2D collisions	$0 = m_{1} v^{'}_{1} \sin θ_{1} + m_{2} v^{'}_{2} \sin θ_{2}$