Check Your Understanding The fan blades on a turbofan jet engine (shown below) accelerate from rest up to a rotation rate of 40.0 rev/s in 20 s. The increase in angular velocity of the fan is constant in time. (The GE90-11OB1 turbofan engine mounted on a Boeing 777, as shown, is currently the largest turbofan engine in the world, capable of thrusts of 330-510 kN.) (a) What is the average angular acceleration ? (b) What is the instantaneous angular acceleration at any time during the first 20 s?

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Answer 1

Textbook Question

Chapter 10, Problem 10.1CYU

Check Your Understanding The fan blades on a turbofan jet engine (shown below) accelerate from rest up to a rotation rate of 40.0 rev/s in 20 s. The increase in angular velocity of the fan is constant in time. (The GE90-11OB1 turbofan engine mounted on a Boeing 777, as shown, is currently the largest turbofan engine in the world, capable of thrusts of 330-510 kN.)

(a) What is the average angular acceleration?

(b) What is the instantaneous angular acceleration at any time during the first 20 s?

Chapter 10, Problem 10.1CYU, Check Your Understanding The fan blades on a turbofan jet engine (shown below) accelerate from rest

Definition Definition Rate of change of angular velocity. Angular acceleration indicates how fast the angular velocity changes over time. It is a vector quantity and has both magnitude and direction. Magnitude is represented by the length of the vector and direction is represented by the right-hand thumb rule. An angular acceleration vector will be always perpendicular to the plane of rotation. Angular acceleration is generally denoted by the Greek letter α and its SI unit is rad/s 2 .

Expert Solution

To determine

(a)

The average angular acceleration of fan blades.

Answer to Problem 10.1CYU

The average angular acceleration of fan blades is 4.0π rad/s2.

Explanation of Solution

Given:

The rate of rotation of wheel is, Δω=40.0 rev/s.

The time taken to achieve the rotation rate is, Δt=20 s.

Formula used:

The average angular acceleration is given by,

α¯=ΔωΔt

Calculation:

The average angular acceleration is calculated as,

α¯=ΔωΔt=(40.0 rev/s×2π rad/s1 rev/s)20.0 s=80.0π rad/s20.0 s=4.0π rad/s2

Conclusion:

The average angular acceleration of fan blades is 4.0π rad/s2.

Expert Solution

To determine

(b)

The instantaneous angular acceleration at any time during the first 20 s.

Answer to Problem 10.1CYU

The instantaneous angular acceleration at any time during the first 20 s is 4.0π rad/s2.

Explanation of Solution

Formula used:

The instantaneous angular acceleration when the increase in the angular velocity is constant is given by,

α=α¯

Calculation:

The instantaneous angular acceleration is calculated as,

α=α¯=4.0π rad/s2

Conclusion:

The instantaneous angular acceleration at any time during the first 20 s is 4.0π rad/s2.

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Answer 2

Textbook Question

Chapter 10, Problem 10.1CYU

Check Your Understanding The fan blades on a turbofan jet engine (shown below) accelerate from rest up to a rotation rate of 40.0 rev/s in 20 s. The increase in angular velocity of the fan is constant in time. (The GE90-11OB1 turbofan engine mounted on a Boeing 777, as shown, is currently the largest turbofan engine in the world, capable of thrusts of 330-510 kN.)

(a) What is the average angular acceleration?

(b) What is the instantaneous angular acceleration at any time during the first 20 s?

Chapter 10, Problem 10.1CYU, Check Your Understanding The fan blades on a turbofan jet engine (shown below) accelerate from rest

Definition Definition Rate of change of angular velocity. Angular acceleration indicates how fast the angular velocity changes over time. It is a vector quantity and has both magnitude and direction. Magnitude is represented by the length of the vector and direction is represented by the right-hand thumb rule. An angular acceleration vector will be always perpendicular to the plane of rotation. Angular acceleration is generally denoted by the Greek letter α and its SI unit is rad/s 2 .

Expert Solution

To determine

(a)

The average angular acceleration of fan blades.

Answer to Problem 10.1CYU

The average angular acceleration of fan blades is 4.0π rad/s2.

Explanation of Solution

Given:

The rate of rotation of wheel is, Δω=40.0 rev/s.

The time taken to achieve the rotation rate is, Δt=20 s.

Formula used:

The average angular acceleration is given by,

α¯=ΔωΔt

Calculation:

The average angular acceleration is calculated as,

α¯=ΔωΔt=(40.0 rev/s×2π rad/s1 rev/s)20.0 s=80.0π rad/s20.0 s=4.0π rad/s2

Conclusion:

The average angular acceleration of fan blades is 4.0π rad/s2.

Expert Solution

To determine

(b)

The instantaneous angular acceleration at any time during the first 20 s.

Answer to Problem 10.1CYU

The instantaneous angular acceleration at any time during the first 20 s is 4.0π rad/s2.

Explanation of Solution

Formula used:

The instantaneous angular acceleration when the increase in the angular velocity is constant is given by,

α=α¯

Calculation:

The instantaneous angular acceleration is calculated as,

α=α¯=4.0π rad/s2

Conclusion:

The instantaneous angular acceleration at any time during the first 20 s is 4.0π rad/s2.

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Answer 3

Textbook Question

Chapter 10, Problem 10.1CYU

Check Your Understanding The fan blades on a turbofan jet engine (shown below) accelerate from rest up to a rotation rate of 40.0 rev/s in 20 s. The increase in angular velocity of the fan is constant in time. (The GE90-11OB1 turbofan engine mounted on a Boeing 777, as shown, is currently the largest turbofan engine in the world, capable of thrusts of 330-510 kN.)

(a) What is the average angular acceleration?

(b) What is the instantaneous angular acceleration at any time during the first 20 s?

Chapter 10, Problem 10.1CYU, Check Your Understanding The fan blades on a turbofan jet engine (shown below) accelerate from rest

Definition Definition Rate of change of angular velocity. Angular acceleration indicates how fast the angular velocity changes over time. It is a vector quantity and has both magnitude and direction. Magnitude is represented by the length of the vector and direction is represented by the right-hand thumb rule. An angular acceleration vector will be always perpendicular to the plane of rotation. Angular acceleration is generally denoted by the Greek letter α and its SI unit is rad/s 2 .

Expert Solution

To determine

(a)

The average angular acceleration of fan blades.

Answer to Problem 10.1CYU

The average angular acceleration of fan blades is 4.0π rad/s2.

Explanation of Solution

Given:

The rate of rotation of wheel is, Δω=40.0 rev/s.

The time taken to achieve the rotation rate is, Δt=20 s.

Formula used:

The average angular acceleration is given by,

α¯=ΔωΔt

Calculation:

The average angular acceleration is calculated as,

α¯=ΔωΔt=(40.0 rev/s×2π rad/s1 rev/s)20.0 s=80.0π rad/s20.0 s=4.0π rad/s2

Conclusion:

The average angular acceleration of fan blades is 4.0π rad/s2.

Expert Solution

To determine

(b)

The instantaneous angular acceleration at any time during the first 20 s.

Answer to Problem 10.1CYU

The instantaneous angular acceleration at any time during the first 20 s is 4.0π rad/s2.

Explanation of Solution

Formula used:

The instantaneous angular acceleration when the increase in the angular velocity is constant is given by,

α=α¯

Calculation:

The instantaneous angular acceleration is calculated as,

α=α¯=4.0π rad/s2

Conclusion:

The instantaneous angular acceleration at any time during the first 20 s is 4.0π rad/s2.

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Answer 4

Textbook Question

Chapter 10, Problem 10.1CYU

Check Your Understanding The fan blades on a turbofan jet engine (shown below) accelerate from rest up to a rotation rate of 40.0 rev/s in 20 s. The increase in angular velocity of the fan is constant in time. (The GE90-11OB1 turbofan engine mounted on a Boeing 777, as shown, is currently the largest turbofan engine in the world, capable of thrusts of 330-510 kN.)

(a) What is the average angular acceleration?

(b) What is the instantaneous angular acceleration at any time during the first 20 s?

Chapter 10, Problem 10.1CYU, Check Your Understanding The fan blades on a turbofan jet engine (shown below) accelerate from rest

Definition Definition Rate of change of angular velocity. Angular acceleration indicates how fast the angular velocity changes over time. It is a vector quantity and has both magnitude and direction. Magnitude is represented by the length of the vector and direction is represented by the right-hand thumb rule. An angular acceleration vector will be always perpendicular to the plane of rotation. Angular acceleration is generally denoted by the Greek letter α and its SI unit is rad/s 2 .

Expert Solution

To determine

(a)

The average angular acceleration of fan blades.

Answer to Problem 10.1CYU

The average angular acceleration of fan blades is 4.0π rad/s2.

Explanation of Solution

Given:

The rate of rotation of wheel is, Δω=40.0 rev/s.

The time taken to achieve the rotation rate is, Δt=20 s.

Formula used:

The average angular acceleration is given by,

α¯=ΔωΔt

Calculation:

The average angular acceleration is calculated as,

α¯=ΔωΔt=(40.0 rev/s×2π rad/s1 rev/s)20.0 s=80.0π rad/s20.0 s=4.0π rad/s2

Conclusion:

The average angular acceleration of fan blades is 4.0π rad/s2.

Expert Solution

To determine

(b)

The instantaneous angular acceleration at any time during the first 20 s.

Answer to Problem 10.1CYU

The instantaneous angular acceleration at any time during the first 20 s is 4.0π rad/s2.

Explanation of Solution

Formula used:

The instantaneous angular acceleration when the increase in the angular velocity is constant is given by,

α=α¯

Calculation:

The instantaneous angular acceleration is calculated as,

α=α¯=4.0π rad/s2

Conclusion:

The instantaneous angular acceleration at any time during the first 20 s is 4.0π rad/s2.

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Answer 5

Textbook Question

Answer 6

Textbook Question

Answer 7

Expert Solution

To determine

(a)

The average angular acceleration of fan blades.

Answer to Problem 10.1CYU

The average angular acceleration of fan blades is 4.0π rad/s2.

Explanation of Solution

Given:

The rate of rotation of wheel is, Δω=40.0 rev/s.

The time taken to achieve the rotation rate is, Δt=20 s.

Formula used:

The average angular acceleration is given by,

α¯=ΔωΔt

Calculation:

The average angular acceleration is calculated as,

α¯=ΔωΔt=(40.0 rev/s×2π rad/s1 rev/s)20.0 s=80.0π rad/s20.0 s=4.0π rad/s2

Conclusion:

The average angular acceleration of fan blades is 4.0π rad/s2.

Expert Solution

To determine

(b)

The instantaneous angular acceleration at any time during the first 20 s.

Answer to Problem 10.1CYU

The instantaneous angular acceleration at any time during the first 20 s is 4.0π rad/s2.

Explanation of Solution

Formula used:

The instantaneous angular acceleration when the increase in the angular velocity is constant is given by,

α=α¯

Calculation:

The instantaneous angular acceleration is calculated as,

α=α¯=4.0π rad/s2

Conclusion:

The instantaneous angular acceleration at any time during the first 20 s is 4.0π rad/s2.

Answer 8

Expert Solution

To determine

(a)

The average angular acceleration of fan blades.

Answer to Problem 10.1CYU

The average angular acceleration of fan blades is 4.0π rad/s2.

Explanation of Solution

Given:

The rate of rotation of wheel is, Δω=40.0 rev/s.

The time taken to achieve the rotation rate is, Δt=20 s.

Formula used:

The average angular acceleration is given by,

α¯=ΔωΔt

Calculation:

The average angular acceleration is calculated as,

α¯=ΔωΔt=(40.0 rev/s×2π rad/s1 rev/s)20.0 s=80.0π rad/s20.0 s=4.0π rad/s2

Conclusion:

The average angular acceleration of fan blades is 4.0π rad/s2.

Answer 9

Expert Solution

Answer 10

Expert Solution

Answer 11

Expert Solution

Answer 12

To determine

(a)

The average angular acceleration of fan blades.

Answer 13

Answer to Problem 10.1CYU

The average angular acceleration of fan blades is 4.0π rad/s2.

Answer 14

Explanation of Solution

Given:

The rate of rotation of wheel is, Δω=40.0 rev/s.

The time taken to achieve the rotation rate is, Δt=20 s.

Formula used:

The average angular acceleration is given by,

α¯=ΔωΔt

Calculation:

The average angular acceleration is calculated as,

α¯=ΔωΔt=(40.0 rev/s×2π rad/s1 rev/s)20.0 s=80.0π rad/s20.0 s=4.0π rad/s2

Conclusion:

The average angular acceleration of fan blades is 4.0π rad/s2.

Answer 15

Expert Solution

To determine

(b)

The instantaneous angular acceleration at any time during the first 20 s.

Answer to Problem 10.1CYU

The instantaneous angular acceleration at any time during the first 20 s is 4.0π rad/s2.

Explanation of Solution

Formula used:

The instantaneous angular acceleration when the increase in the angular velocity is constant is given by,

α=α¯

Calculation:

The instantaneous angular acceleration is calculated as,

α=α¯=4.0π rad/s2

Conclusion:

The instantaneous angular acceleration at any time during the first 20 s is 4.0π rad/s2.

Answer 16

Expert Solution

Answer 17

Expert Solution

Answer 18

Expert Solution

Answer 19

To determine

(b)

The instantaneous angular acceleration at any time during the first 20 s.

Answer 20

Answer to Problem 10.1CYU

The instantaneous angular acceleration at any time during the first 20 s is 4.0π rad/s2.

Answer 21

Explanation of Solution

Formula used:

The instantaneous angular acceleration when the increase in the angular velocity is constant is given by,

α=α¯

Calculation:

The instantaneous angular acceleration is calculated as,

α=α¯=4.0π rad/s2

Conclusion:

The instantaneous angular acceleration at any time during the first 20 s is 4.0π rad/s2.

Answer 22

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