q10 Assume that the collision in each scenario is elastic. A graph of the magnitude of the force exerted on CartY as a function of time for scenario 1 is shown. During which interval of time does the magnitude of themomentum of Cart Y change the most?0. s to 0.002 s0.004 s to 0.006 s0.008 s to 0.010 sThe change in momentum is the same for each time interval listed. Scenario NumberFinal Velocity of Cart XFinal Velocity of Cart Y1VY12VX2VY23-VX3VY3Cart X of mass mo travels along a horizontal surface with a constant speed in the positive horizontaldirection. Cart X then collides with cart Y of mass Mo, which was initially at rest. After the collision, cartY has a positive velocity. Immediately after the collision, cart X and cart Y could have one of three finalvelocities that are indicated in the table. In all scenarios, the total momentum of the two-cart system is thesame before and after the collision.2,000-1,500-1,000-500-0+0.0050.010Time (s)Magnitude of Force (N)

Collision is elastic it means before and after collision momentum is same. According to newton…

Assume that the collision in each scenario is elastic. A graph of the magnitude of the force exerted on Cart Y as a function of time for scenario 1 is shown. During which interval of time does the magnitude of the momentum of Cart Y change the most? 0. s to 0.002 s 0.004 s to 0.006 s 0.008 s to 0.010 s The change in momentum is the same for each time interval listed.

Assume that the collision in each scenario is elastic. A graph of the magnitude of the force exerted on Cart Y as a function of time for scenario 1 is shown. During which interval of time does the magnitude of the momentum of Cart Y change the most? 0. s to 0.002 s 0.004 s to 0.006 s 0.008 s to 0.010 s The change in momentum is the same for each time interval listed.

College Physics

11th Edition

ISBN:9781305952300

Author:Raymond A. Serway, Chris Vuille

Publisher:Raymond A. Serway, Chris Vuille

Chapter1: Units, Trigonometry. And Vectors

Section: Chapter Questions

Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...

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Concept explainers

Centripetal Force

A particle, body, object or certain mass while travelling in a rotational path or semicircular path, experiences an inertia force. If that inertia force pulls the towards the inward of the imaginary circle in the rotation, it is termed as centripetal force.

Question

q10

Assume that the collision in each scenario is elastic. A graph of the magnitude of the force exerted on Cart
Y as a function of time for scenario 1 is shown. During which interval of time does the magnitude of the
momentum of Cart Y change the most?
0. s to 0.002 s
0.004 s to 0.006 s
0.008 s to 0.010 s
The change in momentum is the same for each time interval listed.

Scenario Number
Final Velocity of Cart X
Final Velocity of Cart Y
1
VY1
2
VX2
VY2
3
-VX3
VY3
Cart X of mass mo travels along a horizontal surface with a constant speed in the positive horizontal
direction. Cart X then collides with cart Y of mass Mo, which was initially at rest. After the collision, cart
Y has a positive velocity. Immediately after the collision, cart X and cart Y could have one of three final
velocities that are indicated in the table. In all scenarios, the total momentum of the two-cart system is the
same before and after the collision.
2,000-
1,500-
1,000-
500-
0+
0.005
0.010
Time (s)
Magnitude of Force (N)

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