PHYSICS 1250 PACKAGE >CI<
PHYSICS 1250 PACKAGE >CI<
9th Edition
ISBN: 9781305000988
Author: SERWAY
Publisher: CENGAGE LEARNING (CUSTOM)
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Chapter 6, Problem 6.65CP

A 9.00-kg object starting from rest falls through a viscous medium and experiences a resistive force given by Equation 6.2. The object reaches one half its terminal speed in 5.54 s. (a) Determine the terminal speed. (b) At what time is the speed of the object three-fourths the terminal speed? (c) How far has the object traveled in the first 5.54 s of motion?

(a)

Expert Solution
Check Mark
To determine

The terminal speed of the object.

Answer to Problem 6.65CP

The terminal speed of the object is 78.3m/s.

Explanation of Solution

The mass of the object is 9.00kg, the time to reach its terminal speed is 5.54sec.

Write the expression for the terminal speed of the object

    vT=mgb                                                                                                     (I)

Here, m is the mass of the object, b is a constant., g is the acceleration due to gravity and vT is the terminal speed.

Write the expression for the speed of the object at an instant of time

    v=vT(1ebtm)                                                                                        (II)

Here, t is the time take and v is the instantaneous speed.

From the given condition, it is clear that the speed of the object is one half of its terminal speed at t=5.54sec.

Substitute 12vT for v in equation (II).

    12vT=vT(1ebtm)12=1ebtmebtm=12

Further solve the above expression.

    btm=ln(12)mb=tln(2)

Substitute tln(2) for mb in equation (I).

    vT=(tln(2))g

Conclusion:

Substitute 5.54sec for t and 9.8m/s2 for g in the above equation.

    vT=(5.54secln(2))(9.8m/s2)=78.3m/s

Therefore, the terminal speed of the object is 78.3m/s.

(b)

Expert Solution
Check Mark
To determine

The time at which the speed of the object is three-fourth of the terminal speed.

Answer to Problem 6.65CP

The time at which the speed of the object is three-fourth of the terminal speed is 11.1sec.

Explanation of Solution

From the given condition, it is clear that the speed of the object is three-fourth of its terminal speed.

Substitute 34vT for v in equation (II).

    34vT=vT(1ebtm)34=1ebtmebtm=14btm=ln(14)

Rearrange the above expression for t.

    t=(mb)ln(0.25)

Conclusion:

Substitute 5.54secln(2) for mb in above equation.

    t=(5.54secln(2))ln(0.25)=11.07sec11.1sec

Therefore, the time at which the speed of the object is three-fourth of the terminal speed is 11.1sec.

(c)

Expert Solution
Check Mark
To determine

The distance travelled by the object in first 5.54sec of motion.

Answer to Problem 6.65CP

The distance travelled by the object in first 5.54sec of motion is 121m.

Explanation of Solution

Write the expression for the speed of an object

    v=drdt

Here, r is the distance travelled by the object.

Rearrange the above expression for r.

    r=0tvdt                                                                               (III)

Recall equation (II)

    v=vT(1ebtm)

Substitute vT(1ebtm) for v in equation (III).

    r=0tvT(1ebtm)dt=vT[t+mb(ebtm1)]

Conclusion:

Substitute 78.34m/s for vT, 5.54secln(2) for mb, and 5.54sec for t in above expression.

    r=(78.34m/s)[5.54sec+5.54secln(2)(eln(2)(5.54sec)5.54sec1)]=120.9m121m

Therefore, the distance travelled by the object in first 5.54sec of motion is 121m.

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Chapter 6 Solutions

PHYSICS 1250 PACKAGE >CI<

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