The one-quarter sector is cut from a uniform circular disc of radius \(R\). This sector has a mass \(M\). It is made to rotate about a line perpendicular to its plane and passing through the centre of the original disc. Its moment of inertia about the axis of rotation will be: 
                  

1. \(\frac{1}{2} M R^2 \) 2. \(\frac{1}{4} M R^2 \)
3. \(\frac{1}{8} M R^2 \) 4. \(\sqrt{2} M R^2\)

Subtopic:  Moment of Inertia |
 71%
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A uniform rod of length 2L is placed with one end in contact with the horizontal and is then inclined at an angle α to the horizontal and allowed to fall without slipping at contact point. When it becomes horizontal, its angular velocity will be

(1) ω=3g sinα2L

(2) ω=2L3g sinα

(3) ω=6g sinαL

(4) ω=Lg sinα

Subtopic:  Rolling Motion (OLD NCERT) |
 62%
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A billiard ball of mass m and radius r, when hit in a horizontal direction by a cue at a height h above its centre, acquires a linear velocity v0 . The angular velocity ω0 acquired by the ball will be:

1. 5v0r22h

2. 2v0r25h

3. 2v0h5r2

4. 5v0h2r2

Subtopic:  Angular Momentum |
 51%
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A mass m hangs with the help of a string wrapped around a pulley on a frictionless bearing. The pulley has mass m and radius R. Assuming pulley to be a perfect uniform circular disc, the acceleration of the mass m, if the string does not slip on the pulley, is

(1) 32g

(2) g

(3) 23g

(4) g3

Subtopic:  Torque |
 74%
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A ladder is leaned against a smooth wall and it is allowed to slip on a frictionless floor. Which figure represents the path followed by its center of mass?

1.    2.
3. 4.
Subtopic:  Center of Mass |
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A carpet of mass m made of inextensible material is rolled along its length in the form of a cylinder of radius r and kept on a rough floor. The decrease in the potential energy of the system, when the carpet is unrolled to a radius r2 without sliding is (g = acceleration due to gravity)

(1) 34mgr

(2) 58mgr

(3) 78mgr

(4) 12mgr

Subtopic:  Rolling Motion (OLD NCERT) |
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The moment of inertia of a uniform circular disc of radius '\(R\)' and mass '\(M\)' about an axis touching the disc at its diameter and normal to the disc will be:
1. \(\frac{3}{2} M R^{2}\)
2. \(\frac{1}{2} M R^{2}\)
3. \(M R^{2}\)
4. \(\frac{2}{5} M R^{2}\)

Subtopic:  Moment of Inertia |
 75%
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An automobile engine develops 100 kW when rotating at a speed of 1800 rev/min. What torque does it deliver ?

1. 350 N-m

2. 440 N-m

3. 531 N-m

4. 628 N-m

Subtopic:  Torque |
 67%
PMT - 2000
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Subtopic:  Rolling Motion (OLD NCERT) |
 81%
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A thin wire of length \(L\) and uniform linear mass density \(\rho\) is bent into a circular loop with the centre at \(O\) as shown. The moment of inertia of the loop about the axis \(XX'\) is:

                   
1. \(\dfrac{\rho L^3}{8\pi^2}\)
2. \(\dfrac{\rho L^3}{16\pi^2}\)
3. \(\dfrac{5\rho L^3}{16\pi^2}\)
4. \(\dfrac{3\rho L^3}{8\pi^2}\)

Subtopic:  Moment of Inertia |
 65%
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