Physics for Scientists and Engineers, Technology Update (No access codes included)
Physics for Scientists and Engineers, Technology Update (No access codes included)
9th Edition
ISBN: 9781305116399
Author: Raymond A. Serway, John W. Jewett
Publisher: Cengage Learning
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Chapter 5, Problem 5.15P

Two forces, F 1 = ( 6.00 i ^ 4.00 j ^ ) N and F 2 = ( 3.00 i ^ + 7.00 j ^ ) N , act on a particle of mass 2.00 kg that is initially at rest at coordinates (−2.00 m, + 4.00 m). (a) What are the components of the particle’s velocity at t = 10.0 s? (b) In what direction is the particle moving at t = 10.0 s? (c) What displacement does the particle undergo during the first 10.0 s? (d) What are the coordinates of the particle at t = 10.0 s?

(a)

Expert Solution
Check Mark
To determine

The components of the velocity of the particle at t=10.0sec.

Answer to Problem 5.15P

The x components of the particle’s velocity at t=10.0sec is 45.0m/s and the y component of particle’s velocity at t=10s is 15.0m/s.

Explanation of Solution

The mass of the particle is 2.00kg and the two forces acting on it are F1=(6.00i^4.00j^)N and F2=(3.00i^+7.00j^)N. The particle is initially at rest at (2.00m, +4.00m).

Write the formula to calculate net force acts on a particle

    Fnet=F1+F2

Here, Fnet is the net force acting on a particle, F1 and F2 are the two given forces.

Write the formula to calculate acceleration of a particle

    a=Fnetm

Here, a is the acceleration of the particle and m is the mass of the particle.

Substitute F1+F2 for Fnet in above equation.

    a=F1+F2m

Substitute (6.00i^4.00j^)N for F1, (3.00i^+7.00j^)N for F2 and 2.00kg for m to find a.

    a=(6.00i^4.00j^)N+(3.00i^+7.00j^)N2.00kg=(4.50i^+1.50j^)m/s2

Write the formula to calculate the velocity of the particle

    vf=vi+at

Here, vf is the final velocity and vi is the initial velocity.

Conclusion:

Substitute 0m/s for vi, (4.50i^+1.50j^)m/s2 for a and 10.0s for t to find vf.

    vf=0+(4.50i^+1.50j^)m/s2×(10.0s)=(45.0i^+15.0j^)m/s

Therefore, the x components of the particle’s velocity at t=10.0sec is 45.0m/s and the y component of particle’s velocity at t=10s is 15.0m/s.

(b)

Expert Solution
Check Mark
To determine

The direction of the motion of the particle at t=10.0sec.

Answer to Problem 5.15P

The direction of the particle’s motion at t=10.0sec is 162° counterclockwise from the +x axis.

Explanation of Solution

Write the formula to calculate the direction of the moving particle

    tanθ=(vyvx)

Conclusion:

Substitute 15.0m/s for vy and 45.0m/s for vx to calculate θ.

    tanθ=(15m/s45m/s)θ162°

Therefore, the direction of particle’s motion at t=10.0sec is 162° counterclockwise from the +x axis.

(c)

Expert Solution
Check Mark
To determine

The displacement of the particle during 10sec.

Answer to Problem 5.15P

The displacement of the particle during 10sec is (225i^+75j^)m.

Explanation of Solution

Write the formula to calculate the displacement of the particle

    s=vit+12at2

Substitute 0m/s for vi, (4.50i^+1.50j^)m/s2 for a and 10.0s for t to find s.

    s=0×t+12(4.50i^+1.50j^)m/s2(10.0s)2=(255i^+75.0j^)m

Conclusion:

Therefore, the displacement of the particle during 10sec is (255i^+75.0j^)m.

(d)

Expert Solution
Check Mark
To determine

The final coordinates of the particle at t=10.0sec.

Answer to Problem 5.15P

The final coordinates of the particle at t=10.0sec is (227i^+79.0j^)m.

Explanation of Solution

The initial position of the particle is (2.00i^+4.00j^)m.

Write the expression for the final position coordinates.

  rf=ri+s

Here, ri is the initial position and rf is the final position coordinate

Conclusion:

Substitute (2.00i^+4.00j^)m for ri and (255i^+75.0j^)m for s in the above equation to find rf

rf=(255i^+75.0j^)m+(2.00i^+4.00j^)m=(227i^+79.0j^)m

Therefore, the coordinates of the particle at t=10.0sec is (227i^+79.0j^)m

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Chapter 5 Solutions

Physics for Scientists and Engineers, Technology Update (No access codes included)

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