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Chapter 8, Problem 46P

A rocket has total mass Mi = 360 kg, including Mfuel = 330 kg of fuel and oxidizer. In interstellar space, it starts from rest at the position x = 0, turns on its engine at time t = 0, and puts out exhaust with relative speed ve = 1 500 m/s at the constant rate k = 2.50 kg/s. The fuel will last for a burn time of Tb = Mfuel/k = 330 kg/(2.5 kg/s) = 132 s. (a) Show that during the burn the velocity of the rocket as a function of time is given by

v ( t ) = v e ln ( 1 k t M i )

(b) Make a graph of the velocity of the rocket as a function of time for times running from 0 to 132 s. (c) Show that the acceleration of the rocket is

a ( t ) = k v e M i k t

(d) Graph the acceleration as a function of time. (c) Show that the position of the rocket is

x ( t ) = v e ( M i k t ) ln ( 1 k t M i ) + v e t

(f) Graph the position during the burn as a function of time.

(a)

Expert Solution
Check Mark
To determine

To show: The velocity of the rocket is v(t)=veln(1ktMi) .

Answer to Problem 46P

The velocity of the rocket is v(t)=veln(1ktMi) .

Explanation of Solution

Given information:

The total mass of rocket is Mi=360kg and mass of fuel is 330kg . The relative speed of exhaust is 1500m/s . The rate discharge of exhaust is 2.5kg/s .

Rocket works on Newton’s third law, the thrust generate by the exhaust creates a reaction which causing the rocket to fly.

The basic expression of the rocket propulsion is,

vfvi=veln(MiMf)                                                       (I)

  • ve is the exhaust speed.
  • vf is the final velocity of rocket.
  • vi is the initial velocity of rocket.

Formula to calculate the total mass of rocket is,

Mi=Mf+ktMf=Mikt

  • Mf is the mass of fuel.
  • t is the time duration.

Substitute 0 for vi and Mikt for Mf in equation (I).

vf0=veln(MiMikt)vf=veln(MiktMi)=veln(1ktMi)

Conclusion:

Therefore, The velocity of the rocket is v(t)=veln(1ktMi) .

(b)

Expert Solution
Check Mark
To determine

To sketch: The graph of the velocity of the rocket as a function of time for times running from 0 to 132s .

Answer to Problem 46P

The graph of the velocity of the rocket as a function of time for times running from 0 to 132s is shown in figure I.

Explanation of Solution

Given info: The total mass of rocket is Mi=360kg and mass of fuel is 330kg . The relative speed of exhaust is 1500m/s . The rate discharge of exhaust is 2.5kg/s .

Rocket works on Newton’s third law the thrust generate by the exhaust creates a reaction which causing the rocket to fly.

The velocity of the rocket is,

v(t)=veln(1ktMi) .

Substitute 1500m/s for ve , 2.5kg/s for k and 360kg for Mi in above equation.

v(t)=(1500m/s)ln(1(2.5kg/s)t360kg)=(1500m/s)ln(16.944×103t)

The value of v(t) at the different value of t is calculated and shown below.

t(s) v(t)(m/s)
0 0
10 107.95
20 224.28
30 350.39
40 488.09
50 639.72
60 808.43
70 998.53
80 1216.27
90 1471.08
100 1778.21
110 2164.86
120 2687.16
130 3495.24
132 3726.3

Draw the graph between v(t) and t as shown below.

Bundle: Principles of Physics: A Calculus-Based Text, 5th + WebAssign Printed Access Card for Serway/Jewett's Principles of Physics: A Calculus-Based Text, 5th Edition, Multi-Term, Chapter 8, Problem 46P , additional homework tip  1

Figure I

Conclusion:

Therefore, the graph of the velocity of the rocket as a function of time for times running from 0 to 132s is shown in figure I.

(c)

Expert Solution
Check Mark
To determine

To show: The acceleration of the rocket is a(t)=kveMikt .

Answer to Problem 46P

the acceleration of the rocket is a(t)=kveMikt .

Explanation of Solution

Given info: The total mass of rocket is Mi=360kg and mass of fuel is 330kg . The relative speed of exhaust is 1500m/s . The rate discharge of exhaust is 2.5kg/s .

Rocket works on Newton’s third law the thrust generate by the exhaust creates a reaction which causing the rocket to fly.

The velocity of the rocket is,

v(t)=veln(1ktMi) .

Formula to calculate the acceleration is,

a=dv(t)dt

Substitute veln(1ktMi) for v(t) in above equation.

a=d[veln(1ktMi)]dt=ve11ktMi(kMi)=kveMikt

Conclusion:

Therefore, the acceleration of the rocket is a(t)=kveMikt .

(d)

Expert Solution
Check Mark
To determine

To sketch: The graph of the acceleration of the rocket as a function of time for times running from 0 to 132s .

Answer to Problem 46P

Rocket works on Newton’s third law the thrust generate by the exhaust creates a reaction which causing the rocket to fly.

Explanation of Solution

Rocket works on Newton’s third law the thrust generate by the exhaust creates a reaction which causing the rocket to fly.

Given information:

The total mass of rocket is Mi=360kg and mass of fuel is 330kg . The relative speed of exhaust is 1500m/s . The rate discharge of exhaust is 2.5kg/s .

The acceleration of the rocket is,

a(t)=kveMikt .

Substitute 1500m/s for ve , 2.5kg/s for k and 360kg for Mi in above equation.

a(t)=(2.5kg/s)(1500m/s)360kg(2.5kg/s)t=3750kgm/s2360kg(2.5kg/s)t

The value of a(t) at the different value of t is calculated and shown below.

t(s) a(t)(m/s2)
0 10.42
10 11.12
20 12.09
30 13.15
40 14.42
50 15.95
60 17.85
70 20.27
80 23.43
90 27.78
100 34.09
110 44.12
120 62.5
130 107.14
132 125

Draw the graph between v(t) and t as shown below.

Bundle: Principles of Physics: A Calculus-Based Text, 5th + WebAssign Printed Access Card for Serway/Jewett's Principles of Physics: A Calculus-Based Text, 5th Edition, Multi-Term, Chapter 8, Problem 46P , additional homework tip  2

Figure II

Conclusion:

Therefore, the graph of the acceleration of the rocket as a function of time for times running from 0 to 132s is shown in figure II.

(e)

Expert Solution
Check Mark
To determine

To show: The position of the rocket is x(t)=ve(Mikt)ln(1ktMi)+vet .

Answer to Problem 46P

the position of the rocket is x(t)=ve(Mikt)ln(1ktMi)+vet .

Explanation of Solution

Given information:

The total mass of rocket is Mi=360kg and mass of fuel is 330kg . The relative speed of exhaust is 1500m/s . The rate discharge of exhaust is 2.5kg/s .

Rocket works on Newton’s third law the thrust generate by the exhaust creates a reaction which causing the rocket to fly.

The velocity of the rocket is,

v(t)=veln(1ktMi) .

Formula to calculate the position is,

x(t)=0tv(t)dt

Substitute veln(1ktMi) for v(t) in above equation.

x(t)=0tveln(1ktMi)dt=ve(Mikt)ln(1ktMi)+vet

Conclusion:

Therefore, the position of the rocket is x(t)=ve(Mikt)ln(1ktMi)+vet .

(f)

Expert Solution
Check Mark
To determine

To sketch: The graph of the position of the rocket as a function of time for times running from 0 to 132s .

Answer to Problem 46P

the graph of the position of the rocket as a function of time for times running from 0 to 132s is shown in figure III.

Explanation of Solution

Rocket works on Newton’s third law the thrust generate by the exhaust creates a reaction which causing the rocket to fly.

Given info: The total mass of rocket is Mi=360kg and mass of fuel is 330kg . The relative speed of exhaust is 1500m/s . The rate discharge of exhaust is 2.5kg/s .

The position of the rocket is,

x(t)=ve(Mikt)ln(1ktMi)+vet

Substitute 1500m/s for ve , 2.5kg/s for k and 360kg for Mi in above equation.

x(t)=ve(Mikt)ln(1ktMi)+vet=1500m/s(360kg2.5kg/st)ln(12.5kg/s×t360kg)+1500m/s×t=1500m/s(144st)ln(16.944×103×t)+1500m/s×t

The value of x(t) at the different value of t is calculated and shown below.

t(s) x(t)m
0 0
10 534.2866
20 2189.017
30 5054.74
40 9237.945
50 14865.69
60 22092.2
70 31108.67
80 42158.38
90 55561.47
100 71758.44
110 91394.47
120 115508.2
130 146066.6
132 153284.3

Draw the graph between v(t) and t as shown below.

Bundle: Principles of Physics: A Calculus-Based Text, 5th + WebAssign Printed Access Card for Serway/Jewett's Principles of Physics: A Calculus-Based Text, 5th Edition, Multi-Term, Chapter 8, Problem 46P , additional homework tip  3

Figure III

Conclusion:

Therefore, the graph of the position of the rocket as a function of time for times running from 0 to 132s is shown in figure III.

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Chapter 8 Solutions

Bundle: Principles of Physics: A Calculus-Based Text, 5th + WebAssign Printed Access Card for Serway/Jewett's Principles of Physics: A Calculus-Based Text, 5th Edition, Multi-Term

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