17.2 Part DDetermine the stiffness constant k for the spring.Express your answer to two significant figuresand include the appropriate units.k=■ValueUnits? Consider the track shown in the figure. The sectionAB is one quadrant of a circle of radius 2.0 m and isfrictionless. B to C is a horizontal span 4.0 m longwith a coefficient of kinetic friction uk = 0.20. Thesection CD under the spring is frictionless. A block ofmass 1.0 kg is released from rest at A. After slidingon the track, it compresses the spring by 0.35 m.m = 1.0 kgAr = 2.0 mBPart AWCDDetermine the velocity of the block at point B.Express your answer to two significant figuresand include the appropriate units.

Given Data: Mass of block: m = 1 kg Section AB is a quadrant of frictionaless circle of radius: r =…

Consider the track shown in the figure. The section AB is one quadrant of a circle of radius 2.0 m and is frictionless. B to C is a horizontal span 4.0 m long with a coefficient of kinetic friction k = 0.20. The section CD under the spring is frictionless. A block of mass 1.0 kg is released from rest at A. After sliding on the track, it compresses the spring by 0.35 m. m = 1.0 kg A r = 2.0 m B Part A C D Determine the velocity of the block at point B.

Consider the track shown in the figure. The section AB is one quadrant of a circle of radius 2.0 m and is frictionless. B to C is a horizontal span 4.0 m long with a coefficient of kinetic friction k = 0.20. The section CD under the spring is frictionless. A block of mass 1.0 kg is released from rest at A. After sliding on the track, it compresses the spring by 0.35 m. m = 1.0 kg A r = 2.0 m B Part A C D Determine the velocity of the block at point B.

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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Concept explainers

Spring Potential Energy

The potential energy is the energy possessed by a body by virtue of its position or the energy held by the object due to its position relative to other objects, its force like stresses, charge, and other factors affecting the particles of the body. The potential energy is the measure of the net work done by or on the body. The spring potential energy is the potential energy stored due to the deformation of an elastic spring and this elasticity is due to the stretched spring. The elasticity is the ability of a solid-state matter to come back to its equilibrium position or original position after any kind of external force is acted on it. It is also known as Elastic potential energy. The potential energy here is caused due to the displacement of the spring from its equilibrium position to another position and this potential energy is equal to the net work done due to the stretching of the spring. It also resembles the same mechanics of the oscillation of a simple pendulum, where due to the external force, the object moves from its equilibrium position to its maximum ends and the periodic motion continues till it comes back to the equilibrium position to rest. 

Question

17.2

Part D
Determine the stiffness constant k for the spring.
Express your answer to two significant figures
and include the appropriate units.
k
=
■
Value
Units
?

Consider the track shown in the figure. The section
AB is one quadrant of a circle of radius 2.0 m and is
frictionless. B to C is a horizontal span 4.0 m long
with a coefficient of kinetic friction uk = 0.20. The
section CD under the spring is frictionless. A block of
mass 1.0 kg is released from rest at A. After sliding
on the track, it compresses the spring by 0.35 m.
m = 1.0 kg
A
r = 2.0 m
B
Part A
W
C
D
Determine the velocity of the block at point B.
Express your answer to two significant figures
and include the appropriate units.

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Problem 4: Speed deamplifier. In the figure above on the right, block 1 of mass m1 slides along an x-axis on a frictionless floor at speed 4 m/sec.Then it undergoes a one-dimensional elastic collision with stationary block 2 of mass m2 = 2m1. Next, block 2 undergoes a one-dimensional elastic collision with stationary block 3 of mass mz = 4m1. What then is the speed of block 3? Answer: 16 m/sec or 1.78 m/sec.