Physics
Physics
5th Edition
ISBN: 9781260486919
Author: GIAMBATTISTA
Publisher: MCG
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Chapter 26, Problem 93P

(a)

To determine

The magnitude of the force.

(a)

Expert Solution
Check Mark

Answer to Problem 93P

The magnitude of the force is 1.8×107N .

Explanation of Solution

In problem, time for which force applied is 3.6×104s, mass of spaceship is 2200kg and speed of the spaceship is 0.70c.

Write impulse-momentum equation.

  FΔt=Δp                                                                                                                  (I)

Here, F is the constant force applied to spaceship, Δt is the time during which force is applied and Δp is the change in momentum.

Write the expression for Δp.

  Δp=pfpi

Here, pi is the initial momentum and pf is the final momentum.

Since the spaceship starts from rest, pi is zero.

Substitute 0 for pi in above equation to get Δp.

  Δp=pf

Substitute pf for Δp in equation (I) to get FΔt.

  FΔt=pf                                                                                                                 (II)

In this problem speed of spaceship is a large fraction of c, so relativistic form of the momentum must be used.

Write the equation for the relativistic momentum of spaceship.

  pf=mv1v2c2

Here, m is the mass of spaceship and v is the speed of spaceship.

Put the above equation in equation (II) to get the final expression for F.

  FΔt=mv1v2c2F=mvΔt1v2c2                                                                                                   (III)

Conclusion:

Substitute 2200kg for m, 0.70c for v and 3.6×104s in equation (III) to get F.

  F=(2200kg)(0.70c)(3.6×104s)1(0.70c)2c2=(2200kg)(0.70c)(3.6×104s)1(0.70)2

Substitute 3.00×108m/s for c in above equation to get F.

  F=(2200kg)(0.70(3.00×108m/s))(3.6×104s)1(0.70)2=1.8×107N

Therefore, the magnitude of the force is 1.8×107N.

(b)

To determine

The initial acceleration of the spaceship and comment on the magnitude of the acceleration.

(b)

Expert Solution
Check Mark

Answer to Problem 93P

The initial acceleration of the spaceship is equal to 8200m/s in the direction of the force and this much larger than any human could survive.

Explanation of Solution

Write the expression for the acceleration.

  a=Fm                                                                                                                     (IV)

Here, a is the initial acceleration of the spaceship.

Conclusion:

Substitute 1.8×107N for F and 2200kg for m in (IV) to get a.

  a=1.8×107N2200kg=8200m/s2×g9.8m/s2=830g

Since acceleration is positive, direction of acceleration is in the direction of force. Since this acceleration is 830 times the acceleration due to gravity, human could not survive in this acceleration.

Therefore, the initial acceleration of the spaceship is equal to 8200m/s in the direction of force and the magnitude of the initial acceleration of the spaceship is much larger than any human could survive

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Chapter 26 Solutions

Physics

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