Physics For Scientists And Engineers With Modern Physics, 9th Edition, The Ohio State University
Physics For Scientists And Engineers With Modern Physics, 9th Edition, The Ohio State University
9th Edition
ISBN: 9781305372337
Author: Raymond A. Serway | John W. Jewett
Publisher: Cengage Learning
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Chapter 9, Problem 52P

Consider a system of two particles in the xy plane: m1 = 2.00 kg is at the location r 1 = ( 1.00 i ^ + 2.00 j ^ ) m and has a velocity of ( 3.00 i ^ + 0.500 j ^ ) m / s ; m2 = 3.00 kg is at r 2 = ( 4.00 i ^ + 3.00 j ^ ) m and has velocity ( 3.00 i ^ + 2.00 j ^ ) m / s . (a) Plot these particles on a grid or graph paper. Draw their position vectors and show their velocities. (b) Find the position of the center of mass of the system and mark it on the grid. (c) Determine the velocity of the center of mass and also show it on the diagram. (d) What is the total linear momentum of the system?

(a)

Expert Solution
Check Mark
To determine

To sketch: The position and velocity vector of the two particles in x-y plane.

Answer to Problem 52P

Answer: the position vector of the two particles in x-y plane is shown in Figure I.

Explanation of Solution

The position vector shows the location of particle with respect to x and y axis in x-y plane. The velocity vector shows the magnitude as well as the direction of the particle’s velocity in x-y plane.

Given information:

The mass of particle is m1=2kg and m2=3kg and the location is r1=(1i^+2j^)m , r2=(4i^3j^)m and the velocity is v1=(3i^+0.5j^)m/s and v2=(3i^2j^)m/s .

The graph of position vector is shown in Figure I.

Physics For Scientists And Engineers With Modern Physics, 9th Edition, The Ohio State University, Chapter 9, Problem 52P , additional homework tip 1

Figure I

The graph of velocity vector is shown in Figure II.

Physics For Scientists And Engineers With Modern Physics, 9th Edition, The Ohio State University, Chapter 9, Problem 52P , additional homework tip 2

Figure II

Conclusion: Therefore, the position vector of two particles in x-y plane is shown in Figure I and velocity vector i s shown in Figure II.

(b)

Expert Solution
Check Mark
To determine

The position of the centre of the mass.

Answer to Problem 52P

Solution: The position of the centre of the mass is 2.i^1j^ .

Explanation of Solution

Given information:

The mass of particle is m1=2kg and m2=3kg and the location is r1=(1i^+2j^)m , r2=(4i^3j^)m and the velocity is v1=(3i^+0.5j^)m/s and v2=(3i^2j^)m/s .

Formula to calculate the centre of mass of the system is,

rCM=m1r1+m2r2m1+m2 (I)

  • rCM is the center of mass of the system.

Substitute 2kg for m1 , 3kg for m2 , (1i^+2j^)m for r1 and (4i^3j^)m for r2 in equation (I).

rCM=(2kg)(1i^+2j^)m+(3kg)(4i^3j^)m2kg+3kg=2i^1j^

Conclusion:

Therefore, the position of the centre of the mass is 2.i^1j^ .

(c)

Expert Solution
Check Mark
To determine

The velocity of the centre of the mass.

Answer to Problem 52P

The velocity of the centre of the mass is 3i^1j^ .

Explanation of Solution

Given information:

The mass of particle is m1=2kg and m2=3kg and the location is r1=(1i^+2j^)m , r2=(4i^3j^)m and the velocity is v1=(3i^+0.5j^)m/s and v2=(3i^2j^)m/s .

Formula to calculate the centre of mass of the system is,

vCM=m1v1+m2v2m1+m2 (II)

  • rCM is the center of mass of the system.

Substitute 2kg for m1 , 3kg for m2 , (3i^+0.5j^)m/s for v1 and (3i^2j^)m/s for v2 in equation (II).

vCM=(2kg)(3i^+0.5j^)m/s+(3kg)(3i^2j^)m/s2kg+3kg=3i^1j^

The velocity vector is shown in Figure III.

Physics For Scientists And Engineers With Modern Physics, 9th Edition, The Ohio State University, Chapter 9, Problem 52P , additional homework tip 3

Figure III

Conclusion:

Therefore, the velocity of the centre of the mass is 3i^1j^ .

(d)

Expert Solution
Check Mark
To determine

The total linear momentum of the system.

Answer to Problem 52P

The total linear momentum of the system is (15i^5j^)kgm/s .

Explanation of Solution

Given information:

The mass of particle is m1=2kg and m2=3kg and the location is r1=(1i^+2j^)m , r2=(4i^3j^)m and the velocity is v1=(3i^+0.5j^)m/s and v2=(3i^2j^)m/s .

Formula to calculate the linear momentum of the system is,

p=m1v1+m2v2

  • p is the linear momentum of the system.

Substitute 2kg for m1 , 3kg for m2 , (3i^+0.5j^)m/s for v1 and (3i^2j^)m/s for v2 in  above equation.

p=(2kg)(3i^+0.5j^)m/s+(3kg)(3i^2j^)m/s=(15i^5j^)kgm/s

Conclusion:

Therefore, the total linear momentum of the system is (15i^5j^)kgm/s .

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Chapter 9 Solutions

Physics For Scientists And Engineers With Modern Physics, 9th Edition, The Ohio State University

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