Physics For Scientists And Engineers With Modern Physics, 9th Edition, The Ohio State University
Physics For Scientists And Engineers With Modern Physics, 9th Edition, The Ohio State University
9th Edition
ISBN: 9781305372337
Author: Raymond A. Serway | John W. Jewett
Publisher: Cengage Learning
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Chapter 10, Problem 36P

(a)

To determine

The time interval required for m1 to hit the floor.

(a)

Expert Solution
Check Mark

Answer to Problem 36P

The time interval required for m1 to hit the floor is 1.95 s.

Explanation of Solution

Strings experiences tension due to different masses the Mass m1 is greater than m2 hence, m1 moves downwards and rotating the pulley in anticlockwisedirection.

Write the expression for heavier mass.

    T1m1g=m1a

Here, T1 is tension for heavier mass, m1 is mass of heavier block, g is acceleration under gravity and a is net acceleration.

Rearrange the above equation.

    T1=m1gm1a                                                                                                (I)

Write the expression for lighter mass.

    T2m2g=m2a

Here, T2 is tension for lighter mass and m2 is mass of lighter block.

Rearrange the above equation.

    T2=m2a+m2g                                                                                            (II)

Write the expression for moment of inertia for the pulley as.

    I=12MR2

Here, I is moment of inertia, M is the mass of pulley and R is the radius of pulley.

Write the expression for torque produced in motion of the pulley.

    τ=Iα                                                                                                        (III)

Here, α is angular acceleration and τ is the torque produced.

Write the expression force torque in terms of force.

    τ=(Fnet)R                                                                                                 (IV)

Here, Fnet is the net force and R is the radius of pulley.

Write the expression for net force.

    Fnet=T1T2

Substitute T1T2 for Fnet in equation (IV).

    τ=(T1T2)R

Substitute (T1T2)R for τ in equation (III).

    (T1T2)R=Iα                                                                                           (V)

Write the expression for angular acceleration.

    α=aR

Here, a is the linear acceleration.

Substitute aR for α, m1gm1a for T1 , m2a+m2g for T2 and 12MR2 for I in equation (V).

    ((m1gm1a)(m2a+m2g))R=(12MR2)(aR)m1gm1am2am2g=12Ma

Rearrange the above expression for a .

    a=(m1m2)g(m1+m2+12M)                                                                                   (VI)

Write the expression of motion to calculate time.

    x=ut+12at2

Here, x is the distance covered, u is the initial velocity and t is the time interval.

Substitute 0 for u and solve the above equation.

    t=2xa                                                                                                     (VII)

Conclusion:

Substitute 20.0 kg for m1, 12.5 kg for m2, 5.00 kg for M for 9.80 m/s2 for g in equation (VI).

    a=(20.0 kg)(12.5 kg)(20.0 kg+12.5 kg+12(5.00 kg))(9.80 m/s2)=(7.5 kg)(9.80 m/s2)35.0 kg=2.10 m/s2

Substitute 4.00 m for x and 2.10 m/s2 for a in equation (VII).

    t=2(4.00 m)2.10 m/s2=3.80=1.9509 s

Thus, the time interval required for m1 to hit the floor is 1.95 s.

(b)

To determine

The effect onthe pulley the moment pulley is mass less.

(b)

Expert Solution
Check Mark

Answer to Problem 36P

The time reduces by 3.64% for m1 to hit the floor.

Explanation of Solution

Write the expression for acceleration of pulley.

    a'=(m1m2)g(m1+m2+12M)

Here, a' is new acceleration when pulley is massless.

Substitute 0  for M in above equation.

    a'=(m1m2)g(m1+m2)                                                                                 (VIII)

Write the expression for Timemoving down with acceleration a'.

    t'=2xa'                                                                                                    (IX)

Here t' is the new time.

Write the expression for percentage change in time.

    Change in time(%)=tt't×100                                                                (X)

Conclusion:

Substitute 20.0 kg for m1, 12.5 kg for m2 and 9.80 m/s2 for g in equation (VIII).

    a'=20.0 kg12.5 kg20.0 kg+12.5 kg(9.80 m/s2)=7.5 kg(9.80 m/s2)32.5 kg=2.26 m/s2

Substitute 4.00 m for x and 2.2638 m/s2 for a' in equation (IX).

    t'=2(4.00 m)2.2638 m/s2=3.5388=1.8798 s

Substitute 1.88s for t' and 1.95s for t in equation (X).

    Change in time(%)=1.9509 s1.8798 s1.9509 s×100=3.64%

Thus, the time reduces by 3.64% for m1 to hit the floor.

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Chapter 10 Solutions

Physics For Scientists And Engineers With Modern Physics, 9th Edition, The Ohio State University

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