Systems of Particles and Rotational Motion Test

Result

Systems of Particles and Rotational Motion Test - 47

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Score
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Question 1/10
4 / -1

The moment of inertia of a uniform thin rod of length L and mass M about an axis passing through a point at a distance of L/3 from one of its ends and perpendicular to rod is

Correct

Wrong

Skipped
A

Correct

Wrong

Skipped
B

Correct

Wrong

Skipped
C

Correct

Wrong

Skipped
D

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Solutions
Question 2/10
4 / -1

The moment of inertia of a uniform circular ring, having a mass M and a radius R, about an axis tangential to the ring and perpendicular to its plane is

Correct

Wrong

Skipped
A

Correct

Wrong

Skipped
B

Correct

Wrong

Skipped
C

Correct

Wrong

Skipped
D
Question 3/10
4 / -1

The moment of inertia of a sphere of radius R and mass M about a tangent to the sphere is

Correct

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A

Correct

Wrong

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B

Correct

Wrong

Skipped
C

Correct

Wrong

Skipped
D
Question 4/10
4 / -1

A 1 m long rod has a mass of 0.12 kg. What is the moment of inertia about an axis passing through the centre and perpendicular to the length of rod

Correct

Wrong

Skipped
A
0.01 kg–m²

Correct

Wrong

Skipped
B
0.001 kg–m²

Correct

Wrong

Skipped
C
1 kg–m²

Correct

Wrong

Skipped
D
10 kg–m²

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Solutions
Question 5/10
4 / -1

Two rings of the same radius and mass are placed such that their centres are at a common point and their planes are perpendicular to each other. The moment of inertia of the system about an axis passing through the centre and perpendicular to the plane of one of the rings is (mass of the ring = m and radius = r)

Correct

Wrong

Skipped
A

Correct

Wrong

Skipped
B

Correct

Wrong

Skipped
C

Correct

Wrong

Skipped
D

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Solutions
Question 6/10
4 / -1

The moment of inertia of uniform rectangular plate about an axis passing through its centre and parallel to its length l is (b = breadth of rectangular plate)

Correct

Wrong

Skipped
A

Correct

Wrong

Skipped
B

Correct

Wrong

Skipped
C

Correct

Wrong

Skipped
D

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Solutions
Question 7/10
4 / -1

Two circular iron discs are of the same thickness. The diameter of A is twice that of B. The moment of inertia of A as compared to that of B is

Correct

Wrong

Skipped
A
Twice as large

Correct

Wrong

Skipped
B
Four times as large

Correct

Wrong

Skipped
C
8 times as large

Correct

Wrong

Skipped
D
16 times as large

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Solutions
Question 8/10
4 / -1

Two circular rings have their masses in the ratio of 1 : 2 and their diameters in the ratio of 2 : 1. The ratio of their moment of inertia is

Correct

Wrong

Skipped
A
1 : 4

Correct

Wrong

Skipped
B
2 : 1

Correct

Wrong

Skipped
C
4 : 1

Correct

Wrong

Skipped
D

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Solutions
Question 9/10
4 / -1

The moment of inertia of a circular ring about an axis passing through its centre and normal to its plane is 200 g × cm². Then its moment of inertia about a diameter is

Correct

Wrong

Skipped
A
400 g × cm²

Correct

Wrong

Skipped
B
300 g × cm²

Correct

Wrong

Skipped
C
200 g × cm²

Correct

Wrong

Skipped
D
100 g × cm²

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Solutions
Question 10/10
4 / -1

The moment of inertia about an axis of a body which is rotating with angular velocity 1 radian per second is numerically equal to

Correct

Wrong

Skipped
A
One-fourth of its rotational kinetic energy

Correct

Wrong

Skipped
B
Half of the rotational kinetic energy

Correct

Wrong

Skipped
C
Rotational kinetic energy

Correct

Wrong

Skipped
D
Twice the rotational kinetic energy

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Solutions

Question 1/10

Question 2/10

Question 3/10

Question 4/10

0.01 kg–m²

0.001 kg–m²

1 kg–m²

10 kg–m²

Question 5/10

Question 6/10

Question 7/10

Twice as large

Four times as large

8 times as large

16 times as large

Question 8/10

1 : 4

2 : 1

4 : 1

Question 9/10

400 g × cm²

300 g × cm²

200 g × cm²

100 g × cm²

Question 10/10

One-fourth of its rotational kinetic energy

Half of the rotational kinetic energy

Rotational kinetic energy

Twice the rotational kinetic energy

Question 1/10

Question 2/10

Question 3/10

Question 4/10

0.01 kg–m2

0.001 kg–m2

1 kg–m2

10 kg–m2

Question 5/10

Question 6/10

Question 7/10

Twice as large

Four times as large

8 times as large

16 times as large

Question 8/10

1 : 4

2 : 1

4 : 1

Question 9/10

400 g × cm2

300 g × cm2

200 g × cm2

100 g × cm2

Question 10/10

One-fourth of its rotational kinetic energy

Half of the rotational kinetic energy

Rotational kinetic energy

Twice the rotational kinetic energy

0.01 kg–m²

0.001 kg–m²

1 kg–m²

10 kg–m²

400 g × cm²

300 g × cm²

200 g × cm²

100 g × cm²