6. A spring gun has a constant of K= 565N/m. It is compressed a distance x = 0.04m A ball of mass 0.20kg is placed in the barrel against the compressed spring. The ball is originally at rest. When the spring is released the ball is fired. a) Compute the maximum speed with which the ball leaves the gun when released and the spring is no longer compressed.
6. A spring gun has a constant of K= 565N/m. It is compressed a distance x = 0.04m A ball of mass 0.20kg is placed in the barrel against the compressed spring. The ball is originally at rest. When the spring is released the ball is fired. a) Compute the maximum speed with which the ball leaves the gun when released and the spring is no longer compressed.
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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Can you please answer number 6 and all of the sub problems and show all of the steps to the solution
Transcribed Image Text:5. Albert is driving a 1,200kg car towards east at 40m/s
(90mi/hr.) approaching a RED light. He struck an 800kg car
from behind. The car was driven by miss Jenny who
was preparing to stop. Her speed at the moment of the
impact was 1m/s. Consider an elastic collision.
a) Find the velocity of each car after the collision.
a) Find the velocity of both cars together, if they are
attached.
6. A spring gun has a constant of K= 565N/m. It is
compressed a distance x = 0.04m A ball of mass 0.20kg is
placed in the barrel against the compressed spring. The ball
is originally at rest. When the spring is released the ball is
fired.
a) Compute the maximum speed with which the ball
leaves the gun when released and the spring is no
longer compressed.
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