Give an example in which there are clear distinctions among distance traveled, displacement, and magnitude of displacement. Specifically identify each quantity in your example.

Question

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Answer 1

Textbook Question

Chapter 2, Problem 1CQ

Give an example in which there are clear distinctions among distance traveled, displacement, and magnitude of displacement. Specifically identify each quantity in your example.

Expert Solution & Answer

To determine

An example consisting of clear distinctions among distance traveled, displacement, and magnitude of displacement.

Explanation of Solution

Introduction:

The distance traveled by the student is the total lengthof the path traveled between two positions and the distance is the magnitude of displacement. Note that the distance traveled and the distance are both scalars, that is,just numbers with a length unit. The student’s displacement is the difference between the final and initial position of the student. Since the displacement is a vector, we will have to specify not only its magnitude but direction as well (east / right, west / left, north / up, south / down).

A student walking to her school which is 2 km east from her starting point, then she is moving back 1 km to west from her school.

Let’s start calculating the distance traveled by the student. The student walks 2 km to east, then walks 1 km to west from the school, thus the total length of the path traveled between the initial and final position is

dtraveled = 2 km + 1 km = 3 km

Consider East to be positive x-axis.

So, the student’s displacement is

Δx→ = 2 km i^ − 1 km i^ = 1 km i^ .

The student’s displacement is 1 km to the east of her starting position.

Finally, the magnitude of displacement is the distance

d ≡ |Δx→| = |1 km i^| = |1 km ||i^|=1 km

Conclusion:

The student’s displacement is 1 km to the east and the distance is 3 km.

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Question 6: Chlorine is widely used to purify municipal water supplies and to treat swimming pool waters. Suppose that the volume of a particular sample of Cl₂ gas is 8.70 L at 895 torr and 24°C. (a) How many grams of Cl₂ are in the sample? ⚫ Atomic mass of CI = 35.453 g/mol • Molar mass of Cl₂ = 2 x 35.453 = 70.906 g/mol Solution: Use the Ideal Gas Law: Step 1: Convert Given Values • Pressure: P = 895 torr → atm PV= = nRT 1 P = 895 × = 1.1789 atm 760 • Temperature: Convert to Kelvin: T24273.15 = 297.15 K • Gas constant: R = 0.0821 L atm/mol. K Volume: V = 8.70 L Step 2: Solve for n . PV n = RT n = (1.1789)(8.70) (0.0821)(297.15) 10.25 n = = 0.420 mol 24.405 Step 3: Calculate Mass of Cl₂ Final Answer: 29.78 g of Cl₂. mass nx M mass= (0.420)(70.906) mass= 29.78 g

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Answer 2

Textbook Question

Chapter 2, Problem 1CQ

Give an example in which there are clear distinctions among distance traveled, displacement, and magnitude of displacement. Specifically identify each quantity in your example.

Expert Solution & Answer

To determine

An example consisting of clear distinctions among distance traveled, displacement, and magnitude of displacement.

Explanation of Solution

Introduction:

The distance traveled by the student is the total lengthof the path traveled between two positions and the distance is the magnitude of displacement. Note that the distance traveled and the distance are both scalars, that is,just numbers with a length unit. The student’s displacement is the difference between the final and initial position of the student. Since the displacement is a vector, we will have to specify not only its magnitude but direction as well (east / right, west / left, north / up, south / down).

A student walking to her school which is 2 km east from her starting point, then she is moving back 1 km to west from her school.

Let’s start calculating the distance traveled by the student. The student walks 2 km to east, then walks 1 km to west from the school, thus the total length of the path traveled between the initial and final position is

dtraveled = 2 km + 1 km = 3 km

Consider East to be positive x-axis.

So, the student’s displacement is

Δx→ = 2 km i^ − 1 km i^ = 1 km i^ .

The student’s displacement is 1 km to the east of her starting position.

Finally, the magnitude of displacement is the distance

d ≡ |Δx→| = |1 km i^| = |1 km ||i^|=1 km

Conclusion:

The student’s displacement is 1 km to the east and the distance is 3 km.

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Answer 3

Textbook Question

Chapter 2, Problem 1CQ

Give an example in which there are clear distinctions among distance traveled, displacement, and magnitude of displacement. Specifically identify each quantity in your example.

Expert Solution & Answer

To determine

An example consisting of clear distinctions among distance traveled, displacement, and magnitude of displacement.

Explanation of Solution

Introduction:

The distance traveled by the student is the total lengthof the path traveled between two positions and the distance is the magnitude of displacement. Note that the distance traveled and the distance are both scalars, that is,just numbers with a length unit. The student’s displacement is the difference between the final and initial position of the student. Since the displacement is a vector, we will have to specify not only its magnitude but direction as well (east / right, west / left, north / up, south / down).

A student walking to her school which is 2 km east from her starting point, then she is moving back 1 km to west from her school.

Let’s start calculating the distance traveled by the student. The student walks 2 km to east, then walks 1 km to west from the school, thus the total length of the path traveled between the initial and final position is

dtraveled = 2 km + 1 km = 3 km

Consider East to be positive x-axis.

So, the student’s displacement is

Δx→ = 2 km i^ − 1 km i^ = 1 km i^ .

The student’s displacement is 1 km to the east of her starting position.

Finally, the magnitude of displacement is the distance

d ≡ |Δx→| = |1 km i^| = |1 km ||i^|=1 km

Conclusion:

The student’s displacement is 1 km to the east and the distance is 3 km.

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Answer 4

Textbook Question

Chapter 2, Problem 1CQ

Give an example in which there are clear distinctions among distance traveled, displacement, and magnitude of displacement. Specifically identify each quantity in your example.

Expert Solution & Answer

To determine

An example consisting of clear distinctions among distance traveled, displacement, and magnitude of displacement.

Explanation of Solution

Introduction:

The distance traveled by the student is the total lengthof the path traveled between two positions and the distance is the magnitude of displacement. Note that the distance traveled and the distance are both scalars, that is,just numbers with a length unit. The student’s displacement is the difference between the final and initial position of the student. Since the displacement is a vector, we will have to specify not only its magnitude but direction as well (east / right, west / left, north / up, south / down).

A student walking to her school which is 2 km east from her starting point, then she is moving back 1 km to west from her school.

Let’s start calculating the distance traveled by the student. The student walks 2 km to east, then walks 1 km to west from the school, thus the total length of the path traveled between the initial and final position is

dtraveled = 2 km + 1 km = 3 km

Consider East to be positive x-axis.

So, the student’s displacement is

Δx→ = 2 km i^ − 1 km i^ = 1 km i^ .

The student’s displacement is 1 km to the east of her starting position.

Finally, the magnitude of displacement is the distance

d ≡ |Δx→| = |1 km i^| = |1 km ||i^|=1 km

Conclusion:

The student’s displacement is 1 km to the east and the distance is 3 km.

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Answer 5

Textbook Question

Answer 6

Textbook Question

Answer 7

Expert Solution & Answer

To determine

An example consisting of clear distinctions among distance traveled, displacement, and magnitude of displacement.

Explanation of Solution

Introduction:

The distance traveled by the student is the total lengthof the path traveled between two positions and the distance is the magnitude of displacement. Note that the distance traveled and the distance are both scalars, that is,just numbers with a length unit. The student’s displacement is the difference between the final and initial position of the student. Since the displacement is a vector, we will have to specify not only its magnitude but direction as well (east / right, west / left, north / up, south / down).

A student walking to her school which is 2 km east from her starting point, then she is moving back 1 km to west from her school.

Let’s start calculating the distance traveled by the student. The student walks 2 km to east, then walks 1 km to west from the school, thus the total length of the path traveled between the initial and final position is

dtraveled = 2 km + 1 km = 3 km

Consider East to be positive x-axis.

So, the student’s displacement is

Δx→ = 2 km i^ − 1 km i^ = 1 km i^ .

The student’s displacement is 1 km to the east of her starting position.

Finally, the magnitude of displacement is the distance

d ≡ |Δx→| = |1 km i^| = |1 km ||i^|=1 km

Conclusion:

The student’s displacement is 1 km to the east and the distance is 3 km.

Answer 8

Expert Solution & Answer

To determine

An example consisting of clear distinctions among distance traveled, displacement, and magnitude of displacement.

Explanation of Solution

Introduction:

The distance traveled by the student is the total lengthof the path traveled between two positions and the distance is the magnitude of displacement. Note that the distance traveled and the distance are both scalars, that is,just numbers with a length unit. The student’s displacement is the difference between the final and initial position of the student. Since the displacement is a vector, we will have to specify not only its magnitude but direction as well (east / right, west / left, north / up, south / down).

A student walking to her school which is 2 km east from her starting point, then she is moving back 1 km to west from her school.

Let’s start calculating the distance traveled by the student. The student walks 2 km to east, then walks 1 km to west from the school, thus the total length of the path traveled between the initial and final position is

dtraveled = 2 km + 1 km = 3 km

Consider East to be positive x-axis.

So, the student’s displacement is

Δx→ = 2 km i^ − 1 km i^ = 1 km i^ .

The student’s displacement is 1 km to the east of her starting position.

Finally, the magnitude of displacement is the distance

d ≡ |Δx→| = |1 km i^| = |1 km ||i^|=1 km

Conclusion:

The student’s displacement is 1 km to the east and the distance is 3 km.

Answer 9

Expert Solution & Answer

Answer 10

Expert Solution & Answer

Answer 11

To determine

An example consisting of clear distinctions among distance traveled, displacement, and magnitude of displacement.

Answer 12

Explanation of Solution

Introduction:

The distance traveled by the student is the total lengthof the path traveled between two positions and the distance is the magnitude of displacement. Note that the distance traveled and the distance are both scalars, that is,just numbers with a length unit. The student’s displacement is the difference between the final and initial position of the student. Since the displacement is a vector, we will have to specify not only its magnitude but direction as well (east / right, west / left, north / up, south / down).

A student walking to her school which is 2 km east from her starting point, then she is moving back 1 km to west from her school.

Let’s start calculating the distance traveled by the student. The student walks 2 km to east, then walks 1 km to west from the school, thus the total length of the path traveled between the initial and final position is

dtraveled = 2 km + 1 km = 3 km