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Angular acceleration is defined as the rate at which angular velocity changes over time.
- It is denoted by the symbol alpha (ɑ).
- The SI unit of angular acceleration is radians per second squared (rad/s2).
- The Dimensions of angular acceleration are [M0 L0 T-2].
- When the angular speed changes direction in two dimensions, the angular acceleration is considered as a pseudoscalar whose sign changes depending on whether the angular speed increases or decreases clockwise or anticlockwise.
- In three dimensions, the angular acceleration is considered a pseudovector.
There are two types of angular acceleration
- Spin angular acceleration
- Orbital angular acceleration
The formula of angular acceleration is given by
ɑ = dω/dt
Where ω is the angular velocity.
Very Short Answers Questions [1 Mark Questions]
Ques. The angular acceleration is also known as
- Moving acceleration
- Rotational acceleration
- Angle acceleration
- Circular acceleration
Ans. The correct answer is b. Rotational acceleration
Explanation: Rotational acceleration is another name for angular acceleration. It is a mathematical representation of the variation in angular velocity over time.
Ques. What is the formula to find the angular acceleration?
- ɑ = dω/dt
- ɑ = dω x dt
- ɑ = dω/dt2
- ɑ = dω + dt
Ans. The correct answer is a. ɑ = dω/dt
Explanation: The time rate of change of angular velocity (ω) is known as angular acceleration. The formula of angular acceleration is given by ɑ = dω/dt.
Ques. Angular acceleration is a
- Dimensionless quantity
- Scalar quantity
- Vector quantity
- None of the above
Ans. The correct answer is c. Vector quantity
Explanation: Angular acceleration is a vector quantity and its direction is perpendicular to the plane in which the rotation takes place.
Ques. The angular acceleration is represented as
- ɑ
- β
- ℽ
- τ
Ans. The correct answer is a. ɑ
Explanation: The angular acceleration is represented by the symbol alpha (ɑ).
Ques. When the angular velocity is constant, the angular acceleration is
- -1
- 1
- 0
- None of the above
Ans. The correct answer is c. 0
Explanation: Constant angular velocity represents there is no change in angular velocity. Therefore angular acceleration is 0.
Short Answers Questions [2 Marks Questions]
Ques. What is angular acceleration? What is the SI unit of angular acceleration?
Ans. The rate at which angular velocity changes over time is known as angular acceleration, also known as rotational acceleration.
It is denoted by the symbol alpha (ɑ) and its SI unit is radian per square second (rad/s2).
Ques. Can the angular acceleration be zero?
Ans. The rate of change of angular velocity gives angular acceleration. If the change in angular velocity is constant, then angular acceleration becomes zero.
Ques. What is angular velocity?
Ans. A pseudovector that represents how an object's angular position or orientation varies over time, or how quickly an object rotates (spins or circles) around an axis of rotation and how quickly the axis itself changes direction, is known as an angular velocity or angular frequency vector.
Ques. List three examples of angular acceleration.
Ans. The various examples of angular acceleration are
- Car Turning a Corner
- Pendulum Clock
- Spinning Top
- Merry-Go-Round
- Diver Performing a Somersault
- Figure Skater Spinning
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Long Answers Questions [3 Marks Questions]
Ques. When a ceiling fan is switched on, it makes 10 revolutions in the first 3 seconds. Assuming a uniform angular acceleration, how many rotations it will make in the next 3 seconds?
Ans. Angle turned in first 3 seconds, θ3 = 2π x 10 = 20π
Using the equation of motion
θ3 = ω0t + (1/2)ɑt2
⇒ 20π = 0 + (1/2)ɑ x 33
⇒ ɑ = 40π/9 rad/s2
Now the angle turned in 6 sec from the starting
θ6 = ω0t + (1/2)ɑt2
⇒ θ6 = 0 + (1/2)(40π/9) x 62 = 80π rad
Angle turned between t = 3s to t = 6s
θ = θ6 - θ3 = 80π - 20π = 60π
Number of revolution = 60π/2π = 30 revolutions
Ques. A wheel has an angular acceleration of 3 rad/s2 and an initial angular speed of 2 rad/s. How much it will rotate in 2 seconds?
Ans. Given
- Angular acceleration, a = 3 rad/s2
- Initial angular speed, ωi = 2 rad/s
- Time, t = 2 s
Using the equation of rotational motion, the displacement of the wheel in time t is given by
θ = ωit + (1/2)at2
On substituting the values, we get
θ = (2 x 2) + (1/2) x 3 x 22
⇒ θ = 4 + 6 = 10 rad
Ques. A car is moving at a speed of 54 km/hr. The diameter of its wheel is 0.6 m. If the wheels are stopped in 10 rotations by applying brakes, then what will be the angular retardation produced by the brakes?
Ans. Given
- Speed of the car, v = 54 km/h = 54 x 5/18 = 15 m/s
- The radius of the wheel, r = 0.6 /2 = 0.3 m
- Angular distance covered by the car, s = 10 rotations
Circumference of one rotation = 2πr = 2 x 3.14 x 0.3 = 1.88 m
Therefore, the total distance covered in 10 rotations = 10 x 1.88 = 18.8 m
Also, the initial angular speed, ωi = v/r = 15/0.3 = 50 rad/s
Using the equation of rotational motion, we have
ω2f = ω2i + 2as
⇒ Angular acceleration, a = ( ω2f - ω2i)/2s
⇒ a = (0 - 502) / (2 x 18.8) = - 66.49 rad/s2
Very Long Answers Questions [5 Marks Questions]
Ques. The wheel of a car is rotating at the rate of 1200 revolutions per minute. On pressing the accelerator for 10 seconds, it starts rotating at 4500 revolutions per minute. Calculate the angular acceleration of the wheel.
Ans. Initially, the frequency of the revolution, fi = 1200 revolutions per minute = 1200 / 60 revolutions per second
⇒ the frequency of the revolution, fi = 20 revolutions per second
Therefore initial angular velocity of the wheel is given by
ωi = 2πfi
⇒ ωi = 2 x 3.14 x 20 = 125.6 rad/s
Finally, the frequency of the revolution, ff = 4500 revolutions per minutes = 4500 / 60 revolutions per second
⇒ the frequency of the revolution, ff = 75 revolutions per second
Therefore final angular velocity of the wheel is given by
ωf = 2πff
⇒ ωf = 2 x 3.14 x 75 = 471 rad/s
Angular acceleration is given by
a = (ωf - ωi) / t
⇒ a = (471 - 125.6) / 10 = 34.54 rad/s2
Ques. The moment of inertia of a body about a given axis is 2.4 kg m2. What will be the time required to produce rotational kinetic energy of 750 J, if the angular acceleration of 5 rad/s2 is applied about that axis?
Ans. Given
- Moment of inertia of the body, I = 2.4 kg m2
- The kinetic energy of the body, E = 750 J
- Angular acceleration, a = 5 rad/s2
Initially, the body is at rest, therefore its initial angular velocity, ωi = 0
Now, the kinetic energy of a rotating body is given by
E = (1/2)Iω2
⇒ 750 = (1/2) x 2.4 x ωf2
Where ωf is the final angular velocity of the body.
⇒ ωf2 = (750 x 2) / 2.4 = 625
⇒ ωf = 25 rad/s
Now, angular acceleration is given by
a = (ωf – ωi) / t
⇒ t = (ωf – ωi) / a = (25 - 0) / 5
⇒ t = 5 seconds
Ques. A cord is wound over the rim of a flywheel of mass 20 kg and radius 25 cm. A mass of 2.5 kg is attached to the cord and is allowed to fall under gravity. Calculate the angular acceleration of the flywheel.
Ans. Given
- The mass of the flywheel, m = 20 kg
- The radius of the flywheel, r = 25 cm = 0.25 m
The moment of inertia of the flywheel about its axis is given by
I = mr2/2
⇒ I = (20 x 0.252) / 2 = 625 x 10-3 kg m2
Now, when a mass of 2.5 kg is attached to the cord, then a downward force equal to the weight of the mass attached is acting the flywheel. Therefore force acting on the flywheel is given by
F = mg = 2.5 x 10 = 25 N
Torque acting on the flywheel
τ = F x r = 25 x 0.25 = 625 x 10-2 N m
Angular acceleration of the flywheel is given by
a = τ/I = (625 x 10-2) / (625 x 10-3)
⇒ a = 10 rad s2
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