# Differences

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 phy131studiof16:lectures:chapter9a [2016/10/10 09:31]mdawber [Impulse] phy131studiof16:lectures:chapter9a [2016/10/10 09:31] (current)mdawber [Impulse] Both sides previous revision Previous revision 2016/10/10 09:31 mdawber [Impulse] 2016/10/10 09:31 mdawber [Impulse] 2016/07/29 11:07 mdawber 2016/07/29 11:01 mdawber [Momentum] 2016/07/29 11:00 mdawber [Momentum] 2016/07/29 10:59 mdawber [Conservation of Momentum] 2016/07/29 10:59 mdawber [Impulse] 2016/07/29 10:58 mdawber [Impulse] 2016/07/29 10:56 mdawber created 2016/10/10 09:31 mdawber [Impulse] 2016/10/10 09:31 mdawber [Impulse] 2016/07/29 11:07 mdawber 2016/07/29 11:01 mdawber [Momentum] 2016/07/29 11:00 mdawber [Momentum] 2016/07/29 10:59 mdawber [Conservation of Momentum] 2016/07/29 10:59 mdawber [Impulse] 2016/07/29 10:58 mdawber [Impulse] 2016/07/29 10:56 mdawber created Line 88: Line 88: $\vec{J}=\int_{t_{i}}^{t_{f}}\vec{F}dt$ $\vec{J}=\int_{t_{i}}^{t_{f}}\vec{F}dt$ - and we can see that the change of momentum of an object is equal to the **impulse** acting on it + and we can see that the change of momentum of an object is equal to the impulse acting on it $\Delta\vec{p}=\vec{J}=\int_{t_{i}}^{t_{f}}\vec{F}dt$ $\Delta\vec{p}=\vec{J}=\int_{t_{i}}^{t_{f}}\vec{F}dt$