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Chapter 10, Problem 67PQ

(a)

To determine

The position of center of mass at t=3.00s.

(a)

Expert Solution
Check Mark

Answer to Problem 67PQ

The position of center of mass at t=3.00s is rCM=(1.43t23t+2.14)i^+(1.43t2+0.429t)j^_.

Explanation of Solution

Write the expression for velocity of center of mass.

  rCM=j=1nmjrjM=m1r1+m2r2m1+m2                                                                                               (I)

Here, m1 is the mass of first particle, m2 is the mass of second particle, r1 is the position of the first particle, and r2 is the position of second particle.

Conclusion:

Substitute, 1.00kg for m1, 2.50kg for m2, ((2t+5t2)i^+4tj^)m for r1, and ((35t)i^+(t2t2)j^)m for r2 in equation (I).

  rCM=(1.00kg)((2t+5t2)i^+4tj^)m+(2.50kg)((35t)i^+(t2t2)j^)m1.00kg+2.50kg=((1.43t23t+2.14)i^+(1.43t2+0.429t)j^)m     (II)

Substitute, 3.00s for t in equation (II).

  rCM=(1.43(3.00s)23(3.00s)+2.14)i^+(1.43(3.00s)2+0.429(3.00s))j^=(6.00i^11.6j^)m

Therefore, the position of center of mass at t=3.00s is rCM=(6.00i^11.6j^)m_.

(b)

To determine

The velocity of the centre of mass.

(b)

Expert Solution
Check Mark

Answer to Problem 67PQ

The velocity of the centre of mass is vCM=(5.58i^8.15j^)m/s_.

Explanation of Solution

Velocity is the time derivative of position.

  vCM=drCMdt                                                                                                        (III)

Here, vCM is the velocity of center of mass.

Substitute equation (II) in equation (III).

  vCM=d((1.43t23t+2.14)i^+(1.43t2+0.429t)j^)dt=(2.86t3)i^+(2.86t+0.429)j^                                      (IV)

Conclusion:

Substitute, 3.00s for t in equation (IV).

  vCM=(2.86×3.00s3)i^+(2.86×3.00s+0.429)j^=(5.58i^8.15)j^

Therefore, velocity of the centre of mass is vCM=(5.58i^8.15j^)m/s_.

(c)

To determine

The total linear momentum of the system.

(c)

Expert Solution
Check Mark

Answer to Problem 67PQ

The total linear momentum of the system is (19.5i^28.5j^)kgm/s_.

Explanation of Solution

Write the expression for momentum.

  p=(m1+m2)vCM                                                                                               (V)

Conclusion:

Substitute, 1.00kg for m1, 2.50kg for m2, and (5.58i^8.15j^)m/s for vCM in equation (V).

  p=(1.00kg+2.50kg)(5.58i^8.15j^)m/s=(19.5i^28.5j^)kgm/s

Therefore, the total linear momentum of the system is (19.5i^28.5j^)kgm/s_.

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