EBK PHYSICS FOR SCIENTISTS AND ENGINEER
EBK PHYSICS FOR SCIENTISTS AND ENGINEER
6th Edition
ISBN: 9781319321710
Author: Mosca
Publisher: VST
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Chapter 8, Problem 115P

(a)

To determine

The speed at which the astronauts move.

(a)

Expert Solution
Check Mark

Answer to Problem 115P

The speed of the firs astronaut is (mb ( m 1 + m b )2)(m2( 2 m 1 + m b )+m1mb+m2)v and the speed of the second astronaut is mb(mb+m2)(1+m1( m 1 + m b ))v .

Explanation of Solution

Given:

The mass of the first astronaut is m1

The mass of second astronaut is m2 .

The mass of the ball is mb

Calculation:

Let the speed of the ball be vb and the speed of the first astronaut be v1 .

The expression for conservation of linear momentum related to the speed of astronaut and the ball after the first throw is given by,

  m1v1+mbvb=0 ....... (I)

The expression for the velocity of the ball in the laboratory frame relative to the first astronaut is given by,

  v=vbv1vb=v+v1

Equation (I) can be rewritten as,

  m1v1+mbvb=0m1v1+mb(v+v1)=0(m1+mb)v1=mbvv1=mbvm1+mb

The expression for the speed of the ball is given by,

  vb=vv1=v( m 1 v m 1 + m b )=mbvbm1+mb

The expression for conservation of momentum for the second astronaut is given by,

  mbvb=(m2+mb)v2v2=mbvb( m 2 + m b )=mb( m 2 + m b )( m 1 v m 1 + m b )=[ m b m 1( m 2 + m b )( m 1 + m b )]v

Let vbf be the speed of the ball thrown by the second astronaut and v2f is the speed of the second astronaut when ball is thrown.

The expression for the conservation of momentum is given,

  (m2+mb)v2=mbvbf+m2v2f ....... (II)

The expression for the speed of the ball in laboratory frame relative to the second astronaut is given by,

  v=v2fvbfvbf=v2fv

Equation (II) can be rewritten as,

  (m2+mb)v2=mb(v 2fv)+m2v2f(m2+mb)v2+mbv=(mb+m2)v2fv2f=( m 2 + m b )v2+mbv( m b + m 2 )=v2+mb( m b + m 2 )v

Solve further,

  v2f=( m b m 1 ( m b + m 2 )( m 1 + m b ))v+mb( m b + m 2 )v=mb( m b + m 2 )(1+ m 1 ( m 1 + m b ))v

The expression for the velocity of the ball in laboratory frame is given by,

  vbf=v2fv=mb( m b + m 2 )(1+ m 1 ( m 1 + m b ))vv=( m b ( m b + m 2 )1)(1+ m 1 ( m 1 + m b ))v

The expression for the speed of the astronaut when the catch is taken as,

  v1f=mbv bf+m1v1m1+mb=( m b m 1 + m b )(( m b m b + m 2 1)( 1+ m 1 m 1 + m b )v)+( m 1 m 1 + m b )( m b v m 1 + m b )=( m b m 1 + m b )(( ( m 2 m b + m 2 )( 2 m 1 + m b m 1 + m b )v)( m 1 v m 1 + m b ))=( m b ( m 1 + m b ) 2 )( m 2 ( 2 m 1 + m b )+ m 1 m b + m 2 )v

Conclusion:

Therefore, the speed of the firs astronaut is (mb ( m 1 + m b )2)(m2( 2 m 1 + m b )+m1mb+m2)v and the speed of the second astronaut is mb(mb+m2)(1+m1( m 1 + m b ))v .

(b)

To determine

The change in system’s kinetic energy and from where this change came from.

(b)

Expert Solution
Check Mark

Answer to Problem 115P

The change in system’s kinetic energy is 12mb2( m 1 + m b )2( m b + m 2 )2(m1 ( m 2 ( ( 2 m 1 + m b )+ m 1 ) )2 ( m 1 + m b )2+m2( 2 m 1 + m b )2)v2 and this change came from the chemical energy stored in the astronaut’s bodies.

Explanation of Solution

Given:

The mass of the first astronaut is m1

The mass of second astronaut is m2 .

The mass of the ball is mb

Formula Used:

Let vbf be the speed of the ball thrown by the second astronaut and v2f is the speed of the second astronaut when ball is thrown.

The expression for change in system’s kinetic energy is given by

  ΔK=12m1v1f2+12m2v2f2

Calculation:

The change in systems kinetic energy is calculated as,

  ΔK=[ 1 2 m 1 ( ( m b ( m 1 + m b ) 2 )( m 2 ( 2 m 1 + m b )+ m 1 m b + m 2 )v ) 2+ 1 2 m 2 ( m b ( m b + m 2 ) ( 1+ m 1 ( m 1 + m b ) )v ) 2]=12mb2 ( m 1 + m b )2 ( m b + m 2 )2( m 1 ( m 2 ( ( 2 m 1 + m b )+ m 1 ) ) 2 ( m 1 + m b ) 2 +m2 ( 2 m 1 + m b )2)v2

This energy generally came from the chemical energy in the astronaut’s bodies.

Conclusion:

Therefore, change in system’s kinetic energy is 12mb2( m 1 + m b )2( m b + m 2 )2(m1 ( m 2 ( ( 2 m 1 + m b )+ m 1 ) )2 ( m 1 + m b )2+m2( 2 m 1 + m b )2)v2 and this change came from the chemical energy stored in the astronaut’s bodies.

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Chapter 8 Solutions

EBK PHYSICS FOR SCIENTISTS AND ENGINEER

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