3. A pinball machine's ball release mechanism is made up of a spring of spring constant k, compressed a distance from its equilibrium position. The pinball (mass m) rests atop of the spring, and when the spring is released, it shoots the ball up a ramp. (a) Find the spring constant k (in terms of other variables) if the ball reaches a height h up the ramp before rolling back downwards. (b) What is the average spring power (in terms of other variables) if the ball looses contact with the spring t after the spring is released?
3. A pinball machine's ball release mechanism is made up of a spring of spring constant k, compressed a distance from its equilibrium position. The pinball (mass m) rests atop of the spring, and when the spring is released, it shoots the ball up a ramp. (a) Find the spring constant k (in terms of other variables) if the ball reaches a height h up the ramp before rolling back downwards. (b) What is the average spring power (in terms of other variables) if the ball looses contact with the spring t after the spring is released?
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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answer question number 3 about the springs please. its dividen into 2 parts, a and b.
Transcribed Image Text:2. Now assume that the hill in Problem 1 does have friction. After rolling down the left hill, the boulder
then continues up an adjacent hill on the right, reaching a vertical height of 25 m before coming to a stop.
It travelled a total distance of d = 500 m. Calculate the average friction force on the boulder.
3. A pinball machine's ball release mechanism is made up of a spring of spring constant k, compressed a
distance from its equilibrium position. The pinball (mass m) rests atop of the spring, and when the
spring is released, it shoots the ball up a ramp.
+
(a) Find the spring constant k (in terms of other variables) if the ball reaches a height h up the ramp
before rolling back downwards.
(b) What is the average spring power (in terms of other variables) if the ball looses contact with the
springt after the spring is released?
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