Student Solutions Manual With Study Guide, Volume 2 For Serway/vuilles College Physics, 10th
Student Solutions Manual With Study Guide, Volume 2 For Serway/vuilles College Physics, 10th
10th Edition
ISBN: 9781285866260
Author: SERWAY
Publisher: CENGAGE L
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Chapter 8, Problem 59P

A rigid, massless rod has three particles with equal masses attached to it as shown in Figure P8.59. The rod is free to rotate in a vertical plane about a frictionless axle perpendicular to the rod through the point P and is released from rest in the horizontal position at t = 0. Assuming m and d are known, find (a) the moment of inertia of the system (rod plus particles) about the pivot, (b) the torque acting on the system at t = 0, (c) the angular acceleration of the system at t = 0, (d) the linear acceleration of the particle labeled 3 at t = 0, (e) the maximum kinetic energy of the system, (0 the maximum angular speed reached by the rod, (g) the maximum angular momentum of the system, and (h) the maximum translational speed reached by the particle labeled 2.

  Chapter 8, Problem 59P, A rigid, massless rod has three particles with equal masses attached to it as shown in Figure P8.59.

a)

Expert Solution
Check Mark
To determine
The moment of inertia of the system about the pivot

Answer to Problem 59P

Solution: The moment of inertia of the three particle system about the pivot is 73md2 .

Explanation of Solution

Given info: The mass of the particles are m . Distance between the consecutive particles is d .

The representative diagram of the discrete particle system is given below.

Student Solutions Manual With Study Guide, Volume 2 For Serway/vuilles College Physics, 10th, Chapter 8, Problem 59P , additional homework tip  1

The moment of inertia of a system of discrete particles is given by,

I=mr2

  • I is the moment of inertial of a system
  • m is the mass of the particles
  • r is the distance of the particles from the axis of rotation

From the above diagram the distance of the first particle from the pivot is 4d3 . Distance of the second particle from the pivot is d3 . The distance of the third particle from the pivot is 2d3 .

The moment of inertia about the pivot of the three particle system will be,

I=m(4d3)2+m(d3)2+m(2d3)2=219md2=73md2

Conclusion:

The moment of inertia of the three particle system about the pivot is 73md2 .

b)

Expert Solution
Check Mark
To determine
The torque acting on the system at t=0 .

Answer to Problem 59P

Solution: The torque of the system about the pivot is mgd counterclockwise direction .

Explanation of Solution

Given info: The mass of the particles are m . Distance between the consecutive particles is d .

The representative diagram of discrete particle system is given below.

Student Solutions Manual With Study Guide, Volume 2 For Serway/vuilles College Physics, 10th, Chapter 8, Problem 59P , additional homework tip  2

The torque of a system of discrete particles is defined as,

τ=r×F

  • τ is the torque.
  • r is the position vector of the particle with respect to the axis of rotation
  • F is the force

Let the counter clockwise torque is considered as positive and clockwise torque is considered as negative.

From the above diagram the distance of the first particle from the pivot is 4d3 . Distance of the second particle from the pivot is d3 . The distance of the third particle from the pivot is 2d3 .

The force on the particles is the weight of the particle.

F=mg

  • g is the free fall acceleration

The torque of the system about the pivot of the three particle system will be,

τ=mg(4d3)+mg(d3)mg(2d3)=33mgd=mgd

Conclusion:

The torque of the system about the pivot is mgd counterclockwise direction .

c)

Expert Solution
Check Mark
To determine
The angular acceleration of the system at t=0 .

Answer to Problem 59P

Solution: The angular acceleration of the system is 3g7d .

Explanation of Solution

Given info: The mass of the particles are m . Distance between the consecutive particles is d .

The representative diagram of discrete particle system is given below.

Student Solutions Manual With Study Guide, Volume 2 For Serway/vuilles College Physics, 10th, Chapter 8, Problem 59P , additional homework tip  3

The torque of a system of discrete particles is defined as,

τ=Iα

  • α is the angular acceleration

Re-write the above equation in order to get an expression for the angular acceleration.

α=τI

From section (a) the moment of inertia of the system is 73md2 .

From section (b) the torque acting on the system is mgd .

Substitute 73md2 for I and mgd for τ to determine α .

α=mgd(73md2)=3g7d

Conclusion:

The angular acceleration of the system is 3g7d .

d)

Expert Solution
Check Mark
To determine
The linear acceleration of the third particle of the system at t=0 .

Answer to Problem 59P

Solution: The linear acceleration of the third particle of the system is 2g7 and directed upward.

Explanation of Solution

Given info: The mass of the particles are m . Distance between the consecutive particles is d .

The representative diagram of discrete particle system is given below.

Student Solutions Manual With Study Guide, Volume 2 For Serway/vuilles College Physics, 10th, Chapter 8, Problem 59P , additional homework tip  4

The relation between the angular acceleration and linear acceleration of a particle is given by,

a=rα

From section (c) the angular acceleration is given by 3g7d .

The distance of the third particle from the pivot is 2d3 .

Substitute 3g7d for α and 2d3 for r to determine a .

a=(2d3)(3g7d)=2g7

The direction of the linear acceleration of the third particle is directed upward.

Conclusion:

The linear acceleration of the third particle of the system is 2g7 and directed upward.

e)

Expert Solution
Check Mark
To determine
The maximum kinetic energy of the system.

Answer to Problem 59P

Solution: The linear acceleration of the third particle of the system is 2g7 and directed upward.

Explanation of Solution

Given info: The mass of the particles are m . Distance between the consecutive particles is d .

The representative diagram of discrete particle system is given below.

Student Solutions Manual With Study Guide, Volume 2 For Serway/vuilles College Physics, 10th, Chapter 8, Problem 59P , additional homework tip  5

From the law of conservation of energy the total energy of an isolated system with only conservative forces is conserved.

E=KE+PE

  • E is the total energy of the isolated system
  • KE is the kinetic energy of the system
  • PE is the potential energy of the system

The kinetic energy of the system will be maximum when the gravitational potential energy of the system is minimum which will occur when the centre of gravity is at minimum height or when the rod is vertical position.

The initial kinetic energy of the system is zero as it is in rest initially. The kinetic energy of a particle will be the difference between the initial potential energy and the final potential energy.

KE=mg(yiyf)

  • KE is the kinetic energy of a particle
  • g is the acceleration due to gravity
  • yi is the initial height of the centre of gravity
  • yf is the final height of the centre of gravity

The kinetic energy of the entire system will be,

KE=3mg(yiyf)

When the rod is vertical, consider the level of the pivot is taken to be zero, then the height of the centre of gravity at vertical position will be d3 . The initial height of the centre of gravity is 0 .

Substitute d3 for yf and 0 for yi to determine the kinetic energy of the system.

KE=3mg(0(d3))=mgd

Conclusion:

The maximum kinetic energy of the system is mgd .

f)

Expert Solution
Check Mark
To determine
The maximum angular speed reached by the rod.

Answer to Problem 59P

Solution: The maximum angular speed of the system is 6g7d .

Explanation of Solution

Given info: The mass of the particles are m . Distance between the consecutive particles is d .

The representative diagram of discrete particle system is given below.

Student Solutions Manual With Study Guide, Volume 2 For Serway/vuilles College Physics, 10th, Chapter 8, Problem 59P , additional homework tip  6

From the law of conservation of energy the total energy of an isolated system with only conservative forces is conserved.

E=KE+PE

Angular speed will be maximum when the entire energy of the system is in the form of rotational kinetic energy.

The total energy of the given system is mgd . Thus,

12Iωm2=mgd

  • ωm is the maximum angular speed

Re-write the above equation to get an expression for maximum angular

ωm=2mgdI

From section (a) the moment of inertia of the system is 7md23 .

Hence the maximum angular speed becomes,

ωm=2mgd(7md23)=6g7d

Conclusion:

The maximum angular speed of the system is 6g7d .

g)

Expert Solution
Check Mark
To determine
The maximum angular momentum of the system.

Answer to Problem 59P

Solution: The maximum angular momentum of the system is m14gd33 .

Explanation of Solution

Given info: The mass of the particles are m . Distance between the consecutive particles is d .

The representative diagram of discrete particle system is given below.

Student Solutions Manual With Study Guide, Volume 2 For Serway/vuilles College Physics, 10th, Chapter 8, Problem 59P , additional homework tip  7

The maximum angular momentum of the system is defines as,

Lm=Iωm

  • Lm is the angular momentum of the system

From section (a) the moment of inertia of the system is 7md23 .

From section (f) the maximum angular speed is 6g7d .

Substitute 7md23 for I , 6g7d for ωm to determine the maximum angular momentum.

Lm=(7md23)(6g7d)=m14gd33

Conclusion:

The maximum angular momentum of the system is m14gd33 .

h)

Expert Solution
Check Mark
To determine
The maximum translational speed reached by the particle two.

Answer to Problem 59P

Solution: The maximum linear speed reached by the second particle is 2gd21 .

Explanation of Solution

Given info: The mass of the particles are m . Distance between the consecutive particles is d .

The representative diagram of discrete particle system is given below.

Student Solutions Manual With Study Guide, Volume 2 For Serway/vuilles College Physics, 10th, Chapter 8, Problem 59P , additional homework tip  8

The relation between the maximum linear speed and the maximum angular speed is given by,

vm=rωm

  • vm is the maximum linear speed

The maximum angular speed of the system is 6g7d .

The distance of the second particle from the pivot is d3 .

Substitute 6g7d for ωm and d3 for r to determine vm .

vm=(d3)(6g7d)=2gd21

Conclusion:

The maximum linear speed reached by the second particle is 2gd21 .

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Chapter 8 Solutions

Student Solutions Manual With Study Guide, Volume 2 For Serway/vuilles College Physics, 10th

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