Check your Understanding A cyclist rides 3 km west and then tune around and tides 2 kin east. (a) What Is his displacement? (b) What is the distance traveled? (c) What is the magnitude of his displacement?

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Answer 1

Textbook Question

Chapter 3, Problem 3.1CYU

Check your Understanding A cyclist rides 3 km west and then tune around and tides 2 kin east. (a) What Is his displacement? (b) What is the distance traveled? (c) What is the magnitude of his displacement?

Chapter 3, Problem 3.1CYU, Check your Understanding A cyclist rides 3 km west and then tune around and tides 2 kin east. (a)

Expert Solution

To determine

(a)

The displacement of the cyclist.

Answer to Problem 3.1CYU

The displacement of the cyclist is −1 km.

Explanation of Solution

Given:

Initially cyclist travel towards west and covers 3 km and then he turned towards east and travelled covering 2 km.

Formula used:

Displacement is defined as the change in position of an object. Numerically it is written as,

Δx=xf−xi

Where,

xf is the final position of the body.

xi is the initial position of the body.

Also, when there is a series of displacement, then total displacement is equal to the sum of individual displacements and it is written as,

ΔxT=∑Δxi

Calculation:

Consider that the cyclist starts from origin and east direction will be positive.

Initially cyclist moves 3 km towards west. The initial position of cyclist is 0 km and final position of cyclist is −3 km. So, the displacement for the first case will be,

Δx1=(−3)−0=−3 km

After travelling 3 km towards west, cyclist turns around and travels 2 km towards east. Now, the initial position of cyclist is −3 km and final position is −1 km. So, the displacement for the second case will be,

Δx1=(−1)−(−3)=−1+3=2 km

The total displacement will be,

ΔxT=Δx1+Δx2=−3+2=−1 km

Conclusion:

Therefore, the displacement of the cyclist is −1 km.

Expert Solution

To determine

(b)

The distance travelled by the cyclist.

Answer to Problem 3.1CYU

The distance travelled by the cyclist is 5 km.

Explanation of Solution

Given:

Initially cyclist travel towards west and covers 3 km and then he turned towards east and travelled covering 2 km.

Formula used:

Distance travelled by an object is equal to the sum of magnitudes of individual displacements, ΔxTD=∑|Δxi|

Calculation:

The displacement for the first case is,

Δx1=−3 km

The displacement for the second case is,

Δx2=2 km

The total distance travelled is,

ΔxTD=|Δx1|+|Δx2|=|−3|+|2|=3+2=5 km

Conclusion:

Therefore, the distance travelled by the cyclist is 5 km.

Expert Solution

To determine

(c)

The magnitude of the displacement.

Answer to Problem 3.1CYU

The magnitude of displacement of the cyclist is 1 km.

Explanation of Solution

Given:

Initially cyclist travel towards west and covers 3 km and then he turned towards east and travelled covering 2 km.

Formula used:

Displacement is defined as the change in position of an object. Numerically it is written as,

Δx=xf−xi

Where,

xf is the final position of the body.

xi is the initial position of the body.

Also, when there is a series of displacement, then total displacement is equal to the sum of individual displacements and it is written as,

ΔxT=∑Δxi

Calculation:

The displacement for the first case is,

Δx1=−3 km

The displacement for the second case is,

Δx2=2 km

The total displacement will be,

ΔxT=Δx1+Δx2=−3+2=−1 km

Magnitude of displacement is,

|ΔxT|=|−1|=1 km

Conclusion:

Therefore, the magnitude of displacement of the cyclist is 1 km.

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Answer 2

Textbook Question

Chapter 3, Problem 3.1CYU

Check your Understanding A cyclist rides 3 km west and then tune around and tides 2 kin east. (a) What Is his displacement? (b) What is the distance traveled? (c) What is the magnitude of his displacement?

Chapter 3, Problem 3.1CYU, Check your Understanding A cyclist rides 3 km west and then tune around and tides 2 kin east. (a)

Expert Solution

To determine

(a)

The displacement of the cyclist.

Answer to Problem 3.1CYU

The displacement of the cyclist is −1 km.

Explanation of Solution

Given:

Initially cyclist travel towards west and covers 3 km and then he turned towards east and travelled covering 2 km.

Formula used:

Displacement is defined as the change in position of an object. Numerically it is written as,

Δx=xf−xi

Where,

xf is the final position of the body.

xi is the initial position of the body.

Also, when there is a series of displacement, then total displacement is equal to the sum of individual displacements and it is written as,

ΔxT=∑Δxi

Calculation:

Consider that the cyclist starts from origin and east direction will be positive.

Initially cyclist moves 3 km towards west. The initial position of cyclist is 0 km and final position of cyclist is −3 km. So, the displacement for the first case will be,

Δx1=(−3)−0=−3 km

After travelling 3 km towards west, cyclist turns around and travels 2 km towards east. Now, the initial position of cyclist is −3 km and final position is −1 km. So, the displacement for the second case will be,

Δx1=(−1)−(−3)=−1+3=2 km

The total displacement will be,

ΔxT=Δx1+Δx2=−3+2=−1 km

Conclusion:

Therefore, the displacement of the cyclist is −1 km.

Expert Solution

To determine

(b)

The distance travelled by the cyclist.

Answer to Problem 3.1CYU

The distance travelled by the cyclist is 5 km.

Explanation of Solution

Given:

Initially cyclist travel towards west and covers 3 km and then he turned towards east and travelled covering 2 km.

Formula used:

Distance travelled by an object is equal to the sum of magnitudes of individual displacements, ΔxTD=∑|Δxi|

Calculation:

The displacement for the first case is,

Δx1=−3 km

The displacement for the second case is,

Δx2=2 km

The total distance travelled is,

ΔxTD=|Δx1|+|Δx2|=|−3|+|2|=3+2=5 km

Conclusion:

Therefore, the distance travelled by the cyclist is 5 km.

Expert Solution

To determine

(c)

The magnitude of the displacement.

Answer to Problem 3.1CYU

The magnitude of displacement of the cyclist is 1 km.

Explanation of Solution

Given:

Initially cyclist travel towards west and covers 3 km and then he turned towards east and travelled covering 2 km.

Formula used:

Displacement is defined as the change in position of an object. Numerically it is written as,

Δx=xf−xi

Where,

xf is the final position of the body.

xi is the initial position of the body.

Also, when there is a series of displacement, then total displacement is equal to the sum of individual displacements and it is written as,

ΔxT=∑Δxi

Calculation:

The displacement for the first case is,

Δx1=−3 km

The displacement for the second case is,

Δx2=2 km

The total displacement will be,

ΔxT=Δx1+Δx2=−3+2=−1 km

Magnitude of displacement is,

|ΔxT|=|−1|=1 km

Conclusion:

Therefore, the magnitude of displacement of the cyclist is 1 km.

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Answer 3

Textbook Question

Chapter 3, Problem 3.1CYU

Check your Understanding A cyclist rides 3 km west and then tune around and tides 2 kin east. (a) What Is his displacement? (b) What is the distance traveled? (c) What is the magnitude of his displacement?

Chapter 3, Problem 3.1CYU, Check your Understanding A cyclist rides 3 km west and then tune around and tides 2 kin east. (a)

Expert Solution

To determine

(a)

The displacement of the cyclist.

Answer to Problem 3.1CYU

The displacement of the cyclist is −1 km.

Explanation of Solution

Given:

Initially cyclist travel towards west and covers 3 km and then he turned towards east and travelled covering 2 km.

Formula used:

Displacement is defined as the change in position of an object. Numerically it is written as,

Δx=xf−xi

Where,

xf is the final position of the body.

xi is the initial position of the body.

Also, when there is a series of displacement, then total displacement is equal to the sum of individual displacements and it is written as,

ΔxT=∑Δxi

Calculation:

Consider that the cyclist starts from origin and east direction will be positive.

Initially cyclist moves 3 km towards west. The initial position of cyclist is 0 km and final position of cyclist is −3 km. So, the displacement for the first case will be,

Δx1=(−3)−0=−3 km

After travelling 3 km towards west, cyclist turns around and travels 2 km towards east. Now, the initial position of cyclist is −3 km and final position is −1 km. So, the displacement for the second case will be,

Δx1=(−1)−(−3)=−1+3=2 km

The total displacement will be,

ΔxT=Δx1+Δx2=−3+2=−1 km

Conclusion:

Therefore, the displacement of the cyclist is −1 km.

Expert Solution

To determine

(b)

The distance travelled by the cyclist.

Answer to Problem 3.1CYU

The distance travelled by the cyclist is 5 km.

Explanation of Solution

Given:

Initially cyclist travel towards west and covers 3 km and then he turned towards east and travelled covering 2 km.

Formula used:

Distance travelled by an object is equal to the sum of magnitudes of individual displacements, ΔxTD=∑|Δxi|

Calculation:

The displacement for the first case is,

Δx1=−3 km

The displacement for the second case is,

Δx2=2 km

The total distance travelled is,

ΔxTD=|Δx1|+|Δx2|=|−3|+|2|=3+2=5 km

Conclusion:

Therefore, the distance travelled by the cyclist is 5 km.

Expert Solution

To determine

(c)

The magnitude of the displacement.

Answer to Problem 3.1CYU

The magnitude of displacement of the cyclist is 1 km.

Explanation of Solution

Given:

Initially cyclist travel towards west and covers 3 km and then he turned towards east and travelled covering 2 km.

Formula used:

Displacement is defined as the change in position of an object. Numerically it is written as,

Δx=xf−xi

Where,

xf is the final position of the body.

xi is the initial position of the body.

Also, when there is a series of displacement, then total displacement is equal to the sum of individual displacements and it is written as,

ΔxT=∑Δxi

Calculation:

The displacement for the first case is,

Δx1=−3 km

The displacement for the second case is,

Δx2=2 km

The total displacement will be,

ΔxT=Δx1+Δx2=−3+2=−1 km

Magnitude of displacement is,

|ΔxT|=|−1|=1 km

Conclusion:

Therefore, the magnitude of displacement of the cyclist is 1 km.

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Answer 4

Textbook Question

Chapter 3, Problem 3.1CYU

Check your Understanding A cyclist rides 3 km west and then tune around and tides 2 kin east. (a) What Is his displacement? (b) What is the distance traveled? (c) What is the magnitude of his displacement?

Chapter 3, Problem 3.1CYU, Check your Understanding A cyclist rides 3 km west and then tune around and tides 2 kin east. (a)

Expert Solution

To determine

(a)

The displacement of the cyclist.

Answer to Problem 3.1CYU

The displacement of the cyclist is −1 km.

Explanation of Solution

Given:

Initially cyclist travel towards west and covers 3 km and then he turned towards east and travelled covering 2 km.

Formula used:

Displacement is defined as the change in position of an object. Numerically it is written as,

Δx=xf−xi

Where,

xf is the final position of the body.

xi is the initial position of the body.

Also, when there is a series of displacement, then total displacement is equal to the sum of individual displacements and it is written as,

ΔxT=∑Δxi

Calculation:

Consider that the cyclist starts from origin and east direction will be positive.

Initially cyclist moves 3 km towards west. The initial position of cyclist is 0 km and final position of cyclist is −3 km. So, the displacement for the first case will be,

Δx1=(−3)−0=−3 km

After travelling 3 km towards west, cyclist turns around and travels 2 km towards east. Now, the initial position of cyclist is −3 km and final position is −1 km. So, the displacement for the second case will be,

Δx1=(−1)−(−3)=−1+3=2 km

The total displacement will be,

ΔxT=Δx1+Δx2=−3+2=−1 km

Conclusion:

Therefore, the displacement of the cyclist is −1 km.

Expert Solution

To determine

(b)

The distance travelled by the cyclist.

Answer to Problem 3.1CYU

The distance travelled by the cyclist is 5 km.

Explanation of Solution

Given:

Initially cyclist travel towards west and covers 3 km and then he turned towards east and travelled covering 2 km.

Formula used:

Distance travelled by an object is equal to the sum of magnitudes of individual displacements, ΔxTD=∑|Δxi|

Calculation:

The displacement for the first case is,

Δx1=−3 km

The displacement for the second case is,

Δx2=2 km

The total distance travelled is,

ΔxTD=|Δx1|+|Δx2|=|−3|+|2|=3+2=5 km

Conclusion:

Therefore, the distance travelled by the cyclist is 5 km.

Expert Solution

To determine

(c)

The magnitude of the displacement.

Answer to Problem 3.1CYU

The magnitude of displacement of the cyclist is 1 km.

Explanation of Solution

Given:

Initially cyclist travel towards west and covers 3 km and then he turned towards east and travelled covering 2 km.

Formula used:

Displacement is defined as the change in position of an object. Numerically it is written as,

Δx=xf−xi

Where,

xf is the final position of the body.

xi is the initial position of the body.

Also, when there is a series of displacement, then total displacement is equal to the sum of individual displacements and it is written as,

ΔxT=∑Δxi

Calculation:

The displacement for the first case is,

Δx1=−3 km

The displacement for the second case is,

Δx2=2 km

The total displacement will be,

ΔxT=Δx1+Δx2=−3+2=−1 km

Magnitude of displacement is,

|ΔxT|=|−1|=1 km

Conclusion:

Therefore, the magnitude of displacement of the cyclist is 1 km.

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Answer 5

Textbook Question

Answer 6

Textbook Question

Answer 7

Expert Solution

To determine

(a)

The displacement of the cyclist.

Answer to Problem 3.1CYU

The displacement of the cyclist is −1 km.

Explanation of Solution

Given:

Initially cyclist travel towards west and covers 3 km and then he turned towards east and travelled covering 2 km.

Formula used:

Displacement is defined as the change in position of an object. Numerically it is written as,

Δx=xf−xi

Where,

xf is the final position of the body.

xi is the initial position of the body.

Also, when there is a series of displacement, then total displacement is equal to the sum of individual displacements and it is written as,

ΔxT=∑Δxi

Calculation:

Consider that the cyclist starts from origin and east direction will be positive.

Initially cyclist moves 3 km towards west. The initial position of cyclist is 0 km and final position of cyclist is −3 km. So, the displacement for the first case will be,

Δx1=(−3)−0=−3 km

After travelling 3 km towards west, cyclist turns around and travels 2 km towards east. Now, the initial position of cyclist is −3 km and final position is −1 km. So, the displacement for the second case will be,

Δx1=(−1)−(−3)=−1+3=2 km

The total displacement will be,

ΔxT=Δx1+Δx2=−3+2=−1 km

Conclusion:

Therefore, the displacement of the cyclist is −1 km.

Expert Solution

To determine

(b)

The distance travelled by the cyclist.

Answer to Problem 3.1CYU

The distance travelled by the cyclist is 5 km.

Explanation of Solution

Given:

Initially cyclist travel towards west and covers 3 km and then he turned towards east and travelled covering 2 km.

Formula used:

Distance travelled by an object is equal to the sum of magnitudes of individual displacements, ΔxTD=∑|Δxi|

Calculation:

The displacement for the first case is,

Δx1=−3 km

The displacement for the second case is,

Δx2=2 km

The total distance travelled is,

ΔxTD=|Δx1|+|Δx2|=|−3|+|2|=3+2=5 km

Conclusion:

Therefore, the distance travelled by the cyclist is 5 km.

Expert Solution

To determine

(c)

The magnitude of the displacement.

Answer to Problem 3.1CYU

The magnitude of displacement of the cyclist is 1 km.

Explanation of Solution

Given:

Initially cyclist travel towards west and covers 3 km and then he turned towards east and travelled covering 2 km.

Formula used:

Displacement is defined as the change in position of an object. Numerically it is written as,

Δx=xf−xi

Where,

xf is the final position of the body.

xi is the initial position of the body.

Also, when there is a series of displacement, then total displacement is equal to the sum of individual displacements and it is written as,

ΔxT=∑Δxi

Calculation:

The displacement for the first case is,

Δx1=−3 km

The displacement for the second case is,

Δx2=2 km

The total displacement will be,

ΔxT=Δx1+Δx2=−3+2=−1 km

Magnitude of displacement is,

|ΔxT|=|−1|=1 km

Conclusion:

Therefore, the magnitude of displacement of the cyclist is 1 km.

Answer 8

Expert Solution

To determine

(a)

The displacement of the cyclist.

Answer to Problem 3.1CYU

The displacement of the cyclist is −1 km.

Explanation of Solution

Given:

Initially cyclist travel towards west and covers 3 km and then he turned towards east and travelled covering 2 km.

Formula used:

Displacement is defined as the change in position of an object. Numerically it is written as,

Δx=xf−xi

Where,

xf is the final position of the body.

xi is the initial position of the body.

Also, when there is a series of displacement, then total displacement is equal to the sum of individual displacements and it is written as,

ΔxT=∑Δxi

Calculation:

Consider that the cyclist starts from origin and east direction will be positive.

Initially cyclist moves 3 km towards west. The initial position of cyclist is 0 km and final position of cyclist is −3 km. So, the displacement for the first case will be,

Δx1=(−3)−0=−3 km

After travelling 3 km towards west, cyclist turns around and travels 2 km towards east. Now, the initial position of cyclist is −3 km and final position is −1 km. So, the displacement for the second case will be,

Δx1=(−1)−(−3)=−1+3=2 km

The total displacement will be,

ΔxT=Δx1+Δx2=−3+2=−1 km

Conclusion:

Therefore, the displacement of the cyclist is −1 km.

Answer 9

Expert Solution

Answer 10

Expert Solution

Answer 11

Expert Solution

Answer 12

To determine

(a)

The displacement of the cyclist.

Answer 13

Answer to Problem 3.1CYU

The displacement of the cyclist is −1 km.

Answer 14

Explanation of Solution

Given:

Initially cyclist travel towards west and covers 3 km and then he turned towards east and travelled covering 2 km.

Formula used:

Displacement is defined as the change in position of an object. Numerically it is written as,

Δx=xf−xi

Where,

xf is the final position of the body.

xi is the initial position of the body.

Also, when there is a series of displacement, then total displacement is equal to the sum of individual displacements and it is written as,

ΔxT=∑Δxi

Calculation:

Consider that the cyclist starts from origin and east direction will be positive.

Initially cyclist moves 3 km towards west. The initial position of cyclist is 0 km and final position of cyclist is −3 km. So, the displacement for the first case will be,

Δx1=(−3)−0=−3 km

After travelling 3 km towards west, cyclist turns around and travels 2 km towards east. Now, the initial position of cyclist is −3 km and final position is −1 km. So, the displacement for the second case will be,

Δx1=(−1)−(−3)=−1+3=2 km

The total displacement will be,

ΔxT=Δx1+Δx2=−3+2=−1 km

Conclusion:

Therefore, the displacement of the cyclist is −1 km.

Answer 15

Expert Solution

To determine

(b)

The distance travelled by the cyclist.

Answer to Problem 3.1CYU

The distance travelled by the cyclist is 5 km.

Explanation of Solution

Given:

Initially cyclist travel towards west and covers 3 km and then he turned towards east and travelled covering 2 km.

Formula used:

Distance travelled by an object is equal to the sum of magnitudes of individual displacements, ΔxTD=∑|Δxi|

Calculation:

The displacement for the first case is,

Δx1=−3 km

The displacement for the second case is,

Δx2=2 km

The total distance travelled is,

ΔxTD=|Δx1|+|Δx2|=|−3|+|2|=3+2=5 km

Conclusion:

Therefore, the distance travelled by the cyclist is 5 km.

Answer 16

Expert Solution

Answer 17

Expert Solution

Answer 18

Expert Solution

Answer 19

To determine

(b)

The distance travelled by the cyclist.

Answer 20

Answer to Problem 3.1CYU

The distance travelled by the cyclist is 5 km.

Answer 21

Explanation of Solution

Given:

Initially cyclist travel towards west and covers 3 km and then he turned towards east and travelled covering 2 km.

Formula used:

Distance travelled by an object is equal to the sum of magnitudes of individual displacements, ΔxTD=∑|Δxi|

Calculation:

The displacement for the first case is,

Δx1=−3 km

The displacement for the second case is,

Δx2=2 km

The total distance travelled is,

ΔxTD=|Δx1|+|Δx2|=|−3|+|2|=3+2=5 km

Conclusion:

Therefore, the distance travelled by the cyclist is 5 km.

Answer 22

Expert Solution

To determine

(c)

The magnitude of the displacement.

Answer to Problem 3.1CYU

The magnitude of displacement of the cyclist is 1 km.

Explanation of Solution

Given:

Initially cyclist travel towards west and covers 3 km and then he turned towards east and travelled covering 2 km.

Formula used:

Displacement is defined as the change in position of an object. Numerically it is written as,

Δx=xf−xi

Where,

xf is the final position of the body.

xi is the initial position of the body.

Also, when there is a series of displacement, then total displacement is equal to the sum of individual displacements and it is written as,

ΔxT=∑Δxi

Calculation:

The displacement for the first case is,

Δx1=−3 km

The displacement for the second case is,

Δx2=2 km

The total displacement will be,

ΔxT=Δx1+Δx2=−3+2=−1 km

Magnitude of displacement is,

|ΔxT|=|−1|=1 km

Conclusion:

Therefore, the magnitude of displacement of the cyclist is 1 km.

Answer 23

Expert Solution

Answer 24

Expert Solution

Answer 25

Expert Solution

Answer 26

To determine

(c)

The magnitude of the displacement.

Answer 27

Answer to Problem 3.1CYU

The magnitude of displacement of the cyclist is 1 km.

Answer 28

Explanation of Solution

Given:

Initially cyclist travel towards west and covers 3 km and then he turned towards east and travelled covering 2 km.

Formula used:

Displacement is defined as the change in position of an object. Numerically it is written as,

Δx=xf−xi

Where,

xf is the final position of the body.

xi is the initial position of the body.

Also, when there is a series of displacement, then total displacement is equal to the sum of individual displacements and it is written as,

ΔxT=∑Δxi

Calculation:

The displacement for the first case is,

Δx1=−3 km

The displacement for the second case is,

Δx2=2 km

The total displacement will be,

ΔxT=Δx1+Δx2=−3+2=−1 km

Magnitude of displacement is,

|ΔxT|=|−1|=1 km

Conclusion:

Therefore, the magnitude of displacement of the cyclist is 1 km.

Answer 29

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Check your Understanding A cyclist rides 3 km west and then tune around and tides 2 kin east. (a) What Is his displacement? (b) What is the distance traveled? (c) What is the magnitude of his displacement?

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Answer to Problem 3.1CYU

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