A ball of mass 1 kg moving with a velocity of 2 m/sec collides a stationary ball of mass 2 kg and comes to rest after impact. The velocity of the second ball after impact will be

Applied Mechanics and Graphic Statics
A ball of mass 1 kg moving with a velocity of 2 m/sec collides a stationary ball of mass 2 kg and comes to rest after impact. The velocity of the second ball after impact will be

1.0 m/sec

Zero

2.0 m/sec

0.5 m/sec

1.0 m/sec

Zero

2.0 m/sec

0.5 m/sec

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Applied Mechanics and Graphic Statics
The forces which meet at one point and have their lines of action in different planes are called

Intersecting forces

Coplanar non-concurrent forces

Non-coplanar non-current forces

Non-coplanar concurrent forces

Intersecting forces

Coplanar non-concurrent forces

Non-coplanar non-current forces

Non-coplanar concurrent forces

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Applied Mechanics and Graphic Statics
The Centre of gravity of a 10 × 15 × 5 cm T section from its bottom, is

8.75 cm

5.0 cm

7.85 cm

7.5 cm

8.75 cm

5.0 cm

7.85 cm

7.5 cm

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Applied Mechanics and Graphic Statics
A shell travelling with a horizontal velocity of 100 m/sec explodes and splits into two parts, one of mass 10 kg and the other of 15 kg. The 15 kg mass drops vertically downward with initial velocity of 100 m/sec and the 10 kg mass begins to travel at an angle to the horizontal of tan”1 x, where x is

43926

43894

43954

43895

43926

43894

43954

43895

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Applied Mechanics and Graphic Statics
Kinetic friction may be defined as

Ratio of limiting friction and normal reaction

Angle between normal reaction and resultant of normal reaction and limiting friction

Friction force acting when the body is just about to move

Friction force acting when the body is in motion

Ratio of limiting friction and normal reaction

Angle between normal reaction and resultant of normal reaction and limiting friction

Friction force acting when the body is just about to move

Friction force acting when the body is in motion

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Applied Mechanics and Graphic Statics
Two circular discs of same weight and thickness are made from metals having different densities. Which disc will have the larger rotational inertia about its central axis?

Disc with larger density

Disc with smaller density

Both discs will have same rotational inertia

None of these

Disc with larger density

Disc with smaller density

Both discs will have same rotational inertia

None of these

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Applied Mechanics and Graphic Statics

Applied Mechanics and Graphic Statics A ball of mass 1 kg moving with a velocity of 2 m/sec collides a stationary ball of mass 2 kg and comes to rest after impact. The velocity of the second ball after impact will be

Applied Mechanics and Graphic Statics The forces which meet at one point and have their lines of action in different planes are called

Applied Mechanics and Graphic Statics The Centre of gravity of a 10 × 15 × 5 cm T section from its bottom, is

Applied Mechanics and Graphic Statics Kinetic friction may be defined as

Applied Mechanics and Graphic Statics Two circular discs of same weight and thickness are made from metals having different densities. Which disc will have the larger rotational inertia about its central axis?

Applied Mechanics and Graphic Statics
A ball of mass 1 kg moving with a velocity of 2 m/sec collides a stationary ball of mass 2 kg and comes to rest after impact. The velocity of the second ball after impact will be

Applied Mechanics and Graphic Statics
The forces which meet at one point and have their lines of action in different planes are called

Applied Mechanics and Graphic Statics
The Centre of gravity of a 10 × 15 × 5 cm T section from its bottom, is

Applied Mechanics and Graphic Statics
Kinetic friction may be defined as

Applied Mechanics and Graphic Statics
Two circular discs of same weight and thickness are made from metals having different densities. Which disc will have the larger rotational inertia about its central axis?