A 5-kilogram block slides at 20 m/s on a smooth frictionless surface toward a stationary sphere, shown below. The sphere is 4 times the mass of the block. The block strikes the sphere at time t=0. A plot of the force exerted on the CUBE by the ball as a function of time is shown above right. 20 20 m/ 10 a) What is the impulse applied to the block? Your answer b) What is the speed of the cube immediately following the collision? (HINT: Impulse = A momentum) Your answer c) What is the velocity of the cube immediately following the collision? (State both direction and magnitude.) IN

A 5-kilogram block slides at 20 m/s on a smooth frictionless surface toward a stationary sphere, shown below. The sphere is 4 times the mass of the block. The block strikes the sphere at time t=0. A plot of the force exerted on the CUBE by the ball as a function of time is shown above right. 20 20 m/ 10 a) What is the impulse applied to the block? Your answer b) What is the speed of the cube immediately following the collision? (HINT: Impulse = A momentum) Your answer c) What is the velocity of the cube immediately following the collision? (State both direction and magnitude.) IN

Name: A 5-kilogram block slides at 20 m/s on a smooth frictionless surface
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Description: A 5-kilogram block slides at 20 m/s on a smooth frictionless surface toward astationary sphere, shown below. The sphere is 4 times the mass of the block. Theblock strikes the sphere at time t-D0. A plot of the force exerted on the CUBE bythe ball as

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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