College Physics (Instructor's)
College Physics (Instructor's)
11th Edition
ISBN: 9781305965317
Author: SERWAY
Publisher: CENGAGE L
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Textbook Question
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Chapter 6, Problem 58P

A spaceship at rest relative to a nearby star in interplanetary space has a total mass of 2.50 × 104 kg. Its engines fire at t = 0, steadily burning fuel at. 76.7 kg/s with an exhaust speed of 4.25 × 103 m/s. Calculate the spaceship’s (a) acceleration at t = 0, (b) mass at t = 125 s, (c) acceleration at t = 125 s, and (d) speed at t = 125 s, relative to the same nearby star.

(a)

Expert Solution
Check Mark
To determine
The magnitude of acceleration of the spaceship at time equal to zero seconds

Answer to Problem 58P

The acceleration at time zero seconds is 13.04ms2 .

Explanation of Solution

Explanation

Given Info:

Mass of the spaceship is 2.50×104kg , rate of fuel burning is 76.7kgs1 , the exhaust speed is 4.25×103ms1 .

Formula to calculate acceleration at time zero seconds is,

a0=TM (I)

  • T is the thrust on the spaceship
  • M is the total mass of the spaceship

Formula to calculate thrust on the rocket is,

T=|ve(ΔMΔt)| (II)

  • ve is the exhaust velocity
  • ΔM/Δt is the rate of change of mass of spaceship or fuel

Rewrite t the equation (I) for acceleration using the expression |ve(ΔM/Δt)| for T

a0=|ve(ΔMΔt)|M

Substitute 2.50×104kg for M, 76.7kgs1 for ΔM/Δt and 4.25×103ms1 for ve in the above equation to calculate ao ,

a0=|(4.25×103ms1)(76.7kgs1)|2.50×104kg=130.410=13.0ms2

Conclusion:

Therefore the acceleration at time zero seconds is 13.0ms2

(b)

Expert Solution
Check Mark
To determine
The mass of the spaceship at time 125 seconds

Answer to Problem 58P

Answer The mass of the spaceship at time 125 seconds is 1.54×104kg

Explanation of Solution

Explanation

Given Info:

Formula to calculate mass of the space ship at a particular time is,

Mf=M(ΔMΔt)t

  • Mf is the mass of the space ship at time t
  • t is the time

Substitute 2.50×104kg for M, 76.7kgs1 for ΔM/Δt and 125s for t in the above equation to calculate the mass at 125s

Mf=(2.50×104kg)(76.7kgs1)(125s)=1.54×104kg

Conclusion:

Therefore the mass of the spaceship at time 125 seconds is 1.54×104kg

(c)

Expert Solution
Check Mark
To determine
The magnitude of acceleration at 125 seconds

Answer to Problem 58P

Answer The acceleration at time 125 seconds is 21.17ms2

Explanation of Solution

Explanation

Given Info:

Formula to calculate acceleration of the spaceship is,

af=|ve(ΔMΔt)|Mf

  • af is the acceleration of the spaceship at time 125 seconds
  • Mf is the mass of the space ship at time 125 seconds
  • ΔM/Δt is the rate of change of mass of spaceship or fuel

Substitute 76.7kgs1 for ΔM/Δt , 4.25×103ms1 for ve and 1.54×104kg for Mf in the above equation to calculate acceleration at 125 seconds

af=|(4.25×103ms1)(76.7kgs1)|(1.54×104kg)=211.710=21.17ms221.2ms2

Conclusion:

Therefore the acceleration at time 125 seconds is 21.2ms2

(d)

Expert Solution
Check Mark
To determine
The magnitude speed of the space ship at time 125 seconds

Answer to Problem 58P

The speed of the space ship at 125 seconds is 2.14×103ms1

Explanation of Solution

Given Info:

Acceleration at zero seconds is 13.04ms2 , acceleration at 125 seconds is 21.17ms2

Formula to calculate average acceleration is,

aav=ao+af2 (III)

  • ao is the acceleration of the spaceship at time 0 seconds
  • af   is the acceleration of the spaceship at time 125 seconds

Formula to calculate average acceleration in terms of speed is,

aav=vfvit

But vi is the initial speed which is zero ,

Rewrite the above equation using the value of vi to calculate aav

aav=vft (IV)

Equate (III) and (IV) to calculate the speed of rocket at time 125 seconds.

ao+af2=vft

vf=(ao+af2)t

Substitute 13.04ms2 for a0 , 21.17ms2 for af and 125s for t in the above equation for speed to calculate vf

vf=((13.04ms2)+(21.17ms2)2)125s=2.14×103ms1

Conclusion:

Therefore the speed of the space ship at 125 seconds is 2.14×103ms1

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Chapter 6 Solutions

College Physics (Instructor's)

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