Physics
Physics
3rd Edition
ISBN: 9781259233616
Author: GIAMBATTISTA
Publisher: MCG
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Chapter 3, Problem 44P

(a)

To determine

The distance from the home to the second town.

(a)

Expert Solution
Check Mark

Answer to Problem 44P

The distance from the home to the second town is 76.1km.

Explanation of Solution

The speed of the person due east is 90.0km/h, the speed of the person due south of west is 76.0km/h, the time taken towards east is 80.0m, time taken towards west of south direction is 45.0min and direction in west of south is 30.0°.

Write the expression to calculate the displacement vector.

r=(v1t1v2t2cosθ)east(v2t2sinθ)south

Here, r is the displacement vector, v1 is the speed of the person due east, t1 is the time taken to move due east, v2 is the speed of the person due west of south, t2 is the time taken to move due west of south and θ is the direction in west of south.

Substitute 90.0km/h for v1, 76.0km/h for v2, 80.0m for t1, 45.0min for t2 and 30.0° for θ in the above equation to calculate r.

r=(90.0km/h(80.0m)(1h60min)76.0km/h(45.0min)(1h60min)cos30.0°)east(76.0km/h(45.0min)(1h60min)sin30.0°)south=(120km49.4km)east(28.5km)south=(70.6km)east(28.5km)south

Write the expression to calculate the magnitude of the displacement.

r=(70.6km)2+(28.5km)2=76.1km

Conclusion:

Therefore, the distance from the home to the second town is 76.1km.

(b)

To determine

The average velocity of the person.

(b)

Expert Solution
Check Mark

Answer to Problem 44P

The average velocity of the person is 101.5km/h and direction is 22.0° north of west.

Explanation of Solution

The time taken towards west of south direction is 45.0min and the displacement is 76.1km.

Write the expression to calculate the average velocity.

vav=rt2

Here, vav is the average velocity.

Substitute 45.0min for t2 and 76.1km for r in the above equation to calculate vav.

vav=76.1km45.0min(1h60min)=101.5km/h

Write the expression to calculate the direction.

ϕ=tan1(76.0km/h(45.0min)(1h60min)sin30.0°90.0km/h(80.0m)(1h60min)+76.0km/h(45.0min)(1h60min)cos30.0°)=tan1(28.570.6)=22.0°

The direction is 22.0° north of west.

Conclusion:

Therefore, the average velocity of the person is 101.5km/h and direction is 22.0° north of west.

(c)

To determine

The average velocity during the first two legs of trip.

(c)

Expert Solution
Check Mark

Answer to Problem 44P

The average velocity during the first two legs of trip is 32.6km/h and the direction is 22.0° north of west.

Explanation of Solution

The time taken towards west of south direction is 140.0min and the displacement is 76.1km.

Write the expression to calculate the average velocity.

vav=rt

Here, vav is the average velocity and t is the time taken.

Substitute 140.0min for t and 76.1km for r in the above equation to calculate vav.

vav=76.1km140.0min(1h60min)=32.6km/h

The direction in this case is just opposite the above part (b). Thus, the direction is 22.0° south of east.

Conclusion:

Thus, the average velocity during the first two legs of trip is 32.6km/h and the direction is 22.0° north of west.

(d)

To determine

The average velocity over the entire trip.

(d)

Expert Solution
Check Mark

Answer to Problem 44P

The average velocity over the entire trip is 0km/h.

Explanation of Solution

The time taken for the overall is 185.0min and the displacement is 0km.

Write the expression to calculate the average velocity.

vav=rt

Here, vav is the average velocity and t is the time taken.

Substitute 185.0min for t and 0km for r in the above equation to calculate vav.

vav=0km185.0min(1h60min)=0km/h

Conclusion:

Thus, the average velocity over the entire trip is 0km/h.

(e)

To determine

The average velocity for the trip

(e)

Expert Solution
Check Mark

Answer to Problem 44P

The average velocity for the trip is 63.3km/h.

Explanation of Solution

The time taken for the overall is 240.0min and the displacement is 253.1km.

Write the expression to calculate the average velocity.

vav=rt

Here, vav is the average velocity and t is the time taken.

Substitute 240.0min for t and 253.1km for r in the above equation to calculate vav.

vav=253.1km240.0minmin(1h60min)=63.3km/h

Conclusion:

Thus, the average velocity for the trip is 63.3km/h.

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