The angles between two forces to make their resultant a minimum and a maximum respectively are

Applied Mechanics and Graphic Statics
The angles between two forces to make their resultant a minimum and a maximum respectively are

90° and 180°

0° and 90°

180° and 90°

180° and 0°

90° and 180°

0° and 90°

180° and 90°

180° and 0°

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Applied Mechanics and Graphic Statics
If a set of given forces are such that their free vectors build a closed polygon, then

The resultant force is zero but resultant couple is not zero

The resultant force and resultant couple are always zero

The resultant force and resultant couple both may not be zero

The resultant force is zero but resultant couple may not be zero

The resultant force is zero but resultant couple is not zero

The resultant force and resultant couple are always zero

The resultant force and resultant couple both may not be zero

The resultant force is zero but resultant couple may not be zero

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Applied Mechanics and Graphic Statics
The resultant of two forces ‘P’ and ‘Q’ acting at an angle ‘θ’, is

P² + Q² + 2P sin θ

P² + Q² + 2PQ tan θ

√(P² + Q² + 2PQ cos θ)

P² + Q² + 2PQ cos θ

P² + Q² + 2P sin θ

P² + Q² + 2PQ tan θ

√(P² + Q² + 2PQ cos θ)

P² + Q² + 2PQ cos θ

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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

3/5

3/4

5/3

4/5

3/5

3/4

5/3

4/5

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Applied Mechanics and Graphic Statics
Coefficient of friction depends on

Nature of surfaces only

None of these

Area of contact only

Both (A) and (B)

Nature of surfaces only

None of these

Area of contact only

Both (A) and (B)

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Applied Mechanics and Graphic Statics
The angle of projection for a range is equal to the distance through which the particle would have fallen in order to acquire a velocity equal to the velocity of projection, will be

75°

60°

45°

30°

75°

60°

45°

30°

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Applied Mechanics and Graphic Statics

Applied Mechanics and Graphic Statics The angles between two forces to make their resultant a minimum and a maximum respectively are

Applied Mechanics and Graphic Statics If a set of given forces are such that their free vectors build a closed polygon, then

Applied Mechanics and Graphic Statics The resultant of two forces ‘P’ and ‘Q’ acting at an angle ‘θ’, is

Applied Mechanics and Graphic Statics Coefficient of friction depends on

Applied Mechanics and Graphic Statics The angle of projection for a range is equal to the distance through which the particle would have fallen in order to acquire a velocity equal to the velocity of projection, will be

Applied Mechanics and Graphic Statics
The angles between two forces to make their resultant a minimum and a maximum respectively are

Applied Mechanics and Graphic Statics
If a set of given forces are such that their free vectors build a closed polygon, then

Applied Mechanics and Graphic Statics
The resultant of two forces ‘P’ and ‘Q’ acting at an angle ‘θ’, is

Applied Mechanics and Graphic Statics
Coefficient of friction depends on

Applied Mechanics and Graphic Statics
The angle of projection for a range is equal to the distance through which the particle would have fallen in order to acquire a velocity equal to the velocity of projection, will be