A mass m is released from rest from the top of a frictionless ramp. The mass slides down and compresses a springat the bottom of the ramp as indicated in the figure. How does the maximum compression of the spring change ifthe mass is increased to 4m but starts from the same point at the top of the ramp?mO The compression is half as large.O The compression is four times as largeO The compression is unchanged.O The compression is twice as largeQuestion

Step 1: Consider the conservation energy of the system Since the ramp is frictionless, there will be…

Answered: A mass m is released from rest from the…

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

As shown below, a vertically oriented spring is 0.41m in length when placed on a table. If when you place a 78N weight on the spring, the spring compresses to new length of 0.16m, then what is the spring constant for this spring? Desmos Calculator 0.41m 0.16m k = unit %3D MWW
A 50-g mass on the end of a spring at its equilibrium position is stretched a distance of 5.00 cm and held there by a force of 10.0 N and then suddenly let go. Assume no friction. Part A What is the speed of the mass when it returns to half of its extended position (x = 2.50 cm)? Part B What is the speed of the mass when it returns to its equilibrium position?
1
A toy car of mass m is pushed along a frictionless track so that it is moving at a speed v1. It hits a spring with stiffness k at the end of the track causing the spring to compress. What is the maximum compression x of the spring?
A 20 kg mass, released from rest slides 6 meters down a plane (coefficient of friction = 0.2) inclined at an angle of 30' with the horizantal and strikes a spring of unknown spring constant as shown in the diagram below. Assume that the spring is ideal, the mass of the spring is negligible, and that the mechanical energy is conserved. a. Determine the speed of the black just before it hits the spring. b. Determine the spring constant given that the distance the spring compresses alang the incline is 3 m when the black comes to rest. m d Iwwww
An object is sliding down a ramp at a speed of V. At the bottom of the ramp is a spring with spring constant K. If the speed of the object doubles, what will happen to the compression of the spring at the bottom?
Problem 1 A 1-kg block is 3 meters from a light spring. The coefficient of kinetic friction between the floor and the block is 0.25 (the coefficient of friction is the same on the entire surface). The block has a speed of 3 m/s when it hits the spring that has a force constant of 50 N/m. The block comes to rest when it has compressed the spring a maximum distance d. Find: 1. The speed of the object at the beginning of the 3 meters. 2. The value of the maximum compression d. k m
19
A) Calculate the work done by friction as the block slides down the incline. B) Find the speed of the block when it just reaches the spring. C) What is the spring constant, if the block compresses the spring by a distance of0.10 m? D) On the return trip, what maximum height will the block achieve beforemomentarily coming to rest and returning back down the incline? E)Find the compressed distance of the spring the second time it iscompressed.
10
A spring cannon, pointing straight up, can fire a 53.0 gram ball a distance of 44.8 cm vertically above the equilibrium point of the spring, when it has compressed a distance 5.67 cm. What is the spring coefficient for this spring cannon? Number Units
A toy car of mass m is pushed along a frictionless track so that it is moving at a speed v1- It hits a spring with stiffness k at the end of the track causing the spring to compress. What is the maximum compression x of the spring? By conservation of energy, K1 + Uj = K2 + U2 Some of the terms in the equation above are zero; thus it can be simplified to: %3D 2 = ½ ½m Isolating the compression x, x = ( 2 1/2 Suppose the mass of the toy car moving at 2.5 m/s is 0.0505 kg and the spring constant is k = 605 N/m, the spring will experience a maximum compression of 0.0 84 m.

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