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10.1: Momentum
https://phys.libretexts.org/Courses/Berea_College/Introductory_Physics%3A_Berea_College/10%3A_Linear_Momentum_and_the_Center_of_Mass/10.01%3A_Momentum
We thus have: $\begin{aligned} \frac{d}{dt}(\vec p_1 + \vec p_2) = \sum \vec F^{ext}\end{aligned}$ Furthermore, if we introduce the “total momentum of the system”, $\vec P=\vec p_1 + \vec p_2$ , as...We thus have: $\begin{aligned} \frac{d}{dt}(\vec p_1 + \vec p_2) = \sum \vec F^{ext}\end{aligned}$ Furthermore, if we introduce the “total momentum of the system”, $\vec P=\vec p_1 + \vec p_2$ , as the sum of the momenta of the individual particles, we find: $\begin{aligned} \frac{d\vec P}{dt} &= \sum \vec F^{ext}\end{aligned}$ which is the equivalent of Newton’s Second Law for a system where, $\vec P$ , is the total momentum of the system, and the sum of the forces is only over external …
9.4: Impulse and Collisions (Part 2)
https://phys.libretexts.org/Bookshelves/University_Physics/University_Physics_(OpenStax)/Book%3A_University_Physics_I_-_Mechanics_Sound_Oscillations_and_Waves_(OpenStax)/09%3A_Linear_Momentum_and_Collisions/9.04%3A_Impulse_and_Collisions_(Part_2)
Since an impulse is a force acting for some amount of time, it causes an object’s motion to change.
8.4: Impulse and Collisions (Part 2)
https://phys.libretexts.org/Courses/Joliet_Junior_College/Physics_201_-_Fall_2019/Book%3A_Physics_(Boundless)/08%3A_Linear_Momentum_and_Collisions/8.04%3A_Impulse_and_Collisions_(Part_2)
Since an impulse is a force acting for some amount of time, it causes an object’s motion to change.
8.14: Introduction
https://phys.libretexts.org/Courses/Joliet_Junior_College/Physics_201_-_Fall_2019/Book%3A_Physics_(Boundless)/08%3A_Linear_Momentum_and_Collisions/8.14%3A_Introduction
Linear momentum is the product of the mass and velocity of an object, it is conserved in elastic and inelastic collisions.
10.3: Impulse and Collisions (Part 1)
https://phys.libretexts.org/Courses/Muhlenberg_College/MC%3A_Physics_121_-_General_Physics_I/10%3A_Linear_Momentum_and_Collisions/10.05%3A_Impulse_and_Collisions_(Part_1)
When a force is applied on an object for some amount of time, the object experiences an impulse. This impulse is equal to the object’s change of momentum. Newton’s second law in terms of momentum stat...When a force is applied on an object for some amount of time, the object experiences an impulse. This impulse is equal to the object’s change of momentum. Newton’s second law in terms of momentum states that the net force applied to a system equals the rate of change of the momentum that the force causes.
10.1: Momentum
https://phys.libretexts.org/Bookshelves/University_Physics/Book%3A_Introductory_Physics_-_Building_Models_to_Describe_Our_World_(Martin_Neary_Rinaldo_and_Woodman)/10%3A_Linear_Momentum_and_the_Center_of_Mass/10.01%3A_Momentum
We thus have: $\begin{aligned} \frac{d}{dt}(\vec p_1 + \vec p_2) = \sum \vec F^{ext}\end{aligned}$ Furthermore, if we introduce the “total momentum of the system”, $\vec P=\vec p_1 + \vec p_2$ , as...We thus have: $\begin{aligned} \frac{d}{dt}(\vec p_1 + \vec p_2) = \sum \vec F^{ext}\end{aligned}$ Furthermore, if we introduce the “total momentum of the system”, $\vec P=\vec p_1 + \vec p_2$ , as the sum of the momenta of the individual particles, we find: $\begin{aligned} \frac{d\vec P}{dt} &= \sum \vec F^{ext}\end{aligned}$ which is the equivalent of Newton’s Second Law for a system where, $\vec P$ , is the total momentum of the system, and the sum of the forces is only over external …
9.3: Impulse and Collisions (Part 1)
https://phys.libretexts.org/Bookshelves/University_Physics/University_Physics_(OpenStax)/Book%3A_University_Physics_I_-_Mechanics_Sound_Oscillations_and_Waves_(OpenStax)/09%3A_Linear_Momentum_and_Collisions/9.03%3A_Impulse_and_Collisions_(Part_1)
When a force is applied on an object for some amount of time, the object experiences an impulse. This impulse is equal to the object’s change of momentum. Newton’s second law in terms of momentum stat...When a force is applied on an object for some amount of time, the object experiences an impulse. This impulse is equal to the object’s change of momentum. Newton’s second law in terms of momentum states that the net force applied to a system equals the rate of change of the momentum that the force causes.
8.3: Impulse and Collisions (Part 1)
https://phys.libretexts.org/Courses/Joliet_Junior_College/Physics_201_-_Fall_2019/Book%3A_Physics_(Boundless)/08%3A_Linear_Momentum_and_Collisions/8.03%3A_Impulse_and_Collisions_(Part_1)
When a force is applied on an object for some amount of time, the object experiences an impulse. This impulse is equal to the object’s change of momentum. Newton’s second law in terms of momentum stat...When a force is applied on an object for some amount of time, the object experiences an impulse. This impulse is equal to the object’s change of momentum. Newton’s second law in terms of momentum states that the net force applied to a system equals the rate of change of the momentum that the force causes.
9.14: Introduction
https://phys.libretexts.org/Courses/Joliet_Junior_College/Physics_201_-_Fall_2019v2/Book%3A_Custom_Physics_textbook_for_JJC/09%3A_Linear_Momentum_and_Collisions/9.14%3A_Introduction
Linear momentum is the product of the mass and velocity of an object, it is conserved in elastic and inelastic collisions.
10.4: Impulse and Collisions (Part 2)
https://phys.libretexts.org/Courses/Muhlenberg_College/MC%3A_Physics_121_-_General_Physics_I/10%3A_Linear_Momentum_and_Collisions/10.06%3A_Impulse_and_Collisions_(Part_2)
Since an impulse is a force acting for some amount of time, it causes an object’s motion to change.
4.3: Impulse
https://phys.libretexts.org/Courses/Skyline/Survey_of_Physics/04%3A_Momentum/4.03%3A_Impulse
The effect of a force on an object depends on how long it acts, as well as how great the force is. A very large force acting for a short time had a great effect on the momentum of the tennis ball. A s...The effect of a force on an object depends on how long it acts, as well as how great the force is. A very large force acting for a short time had a great effect on the momentum of the tennis ball. A small force could cause the same change in momentum, but it would have to act for a much longer time.

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