5.DETAILSMI4 6.8.056.MY NOTESASK YOUR TEACHERPRACTICE ANOTHERYou throw a ball of mass 0.8 kg straight up. You observe that it takes 3.1 s to qo up and down, returning to your hand. Assuming we can neglect air resistance, the time it takes to go upto the top is half the total time, 1.55 s. Note that at the top the momentum is momentarily zero, as it changes from heading upward to heading downward.(a) Use the momentum principle to determine the speed that the ball had just AFTER it left your hand.Vinitial =m/s(b) Use the Energy Principle to determine the maximum height above your hand reached by the ball.h =mAdditional MaterialsM eBook

let A be the point from where the ball is thrown and B be the top most point and let the distance…

Answered: You throw a ball of mass 0.8 kg…

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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Similar questions

A 1.0 kg mass with a speed of 4.5 m/s strikes a 2.0 kg mass at rest. For a completely inelastic collision, find: (a) The speed of the masses after the collision. (b) The change in kinetic energy. (c) The momentum after the collision.
A sprinter with a mass of 79 kg reaches a speed of 8 m/s during a race. Find the sprinter's linear momentum (in kg • m/s). (Enter the magnitude.) kg • m/s
Please don't provide handwritten solution ......
Find the magnitude of the linear momentum for the following cases. (Enter your answers in kg · m/s.) (a) a proton with mass 1.67 ✕ 10−27 kg, moving with a speed of 5.00 ✕ 106 m/s kg · m/s (b) a 12.0-g bullet moving with a speed of 300 m/s kg · m/s (c) a 77.5-kg sprinter running with a speed of 12.5 m/s kg · m/s (d) the Earth (mass = 5.98 ✕ 1024 kg) moving with an orbital speed equal to 2.98 ✕ 104 m/s. kg · m/s
A ball is thrown at an astronaut in deep space, and strikes the astronaut at vm/s. What is the difference between the amount of momentum the astronaut would acquire from catching the ball, and the amount that he would acquire if he lets it rebound off of him at a velocity of -v?
A cannon of mass M fires a projectile of mass m. The energy liberated in firing is E. Assume the projectile is discharged horizontally and that the cannon is mounted on wheels of a negligible mass. Using the fact that the energy E is taken up by both cannon and projectile and that momentum is conserved in the firing, do the following: A) Find the velocity of the projectile in terms of the masses and the energy E. B) By writing the velocity of the recoiling cannon in terms of the velocity of the projectile, find a relationship between the energy liberated, E, and the energy of the projectile. C) Explain what happens as M gets very large compared to m.
Find the magnitude of the linear momentum for the following cases. (Enter your answers in kg · m/s.) (a)a proton with mass 1.67 ✕ 10−27 kg, moving with a speed of 4.00 ✕ 106 m/s kg · m/s (b)a 16.0-g bullet moving with a speed of 250 m/s kg · m/s (c)a 75.0-kg runner running with a speed of 12.5 m/s kg · m/s (d)the Earth (mass = 5.98 ✕ 1024 kg) moving with an orbital speed equal to 2.98 ✕ 104 m/s. kg · m/s Please dont write d in scientific notation, I am unable to write my answer using that.

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