If two forces are in equilibrium, then the forces must(i) Be equal in magnitude(ii) Be opposite in sense(iii) Act along the same line

Applied Mechanics and Graphic Statics
If two forces are in equilibrium, then the forces must(i) Be equal in magnitude(ii) Be opposite in sense(iii) Act along the same line

Only (i)

(i) and (iii)

(i) and (ii)

All (i), (ii) and (iii)

Only (i)

(i) and (iii)

(i) and (ii)

All (i), (ii) and (iii)

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Applied Mechanics and Graphic Statics
A heavy ladder resting on a floor and against a vertical wall may not be in equilibrium, if

Floor and wall both are smooth surfaces

Floor is smooth and the wall is rough

Floor and wall both are rough surfaces

Floor is rough and the wall is smooth

Floor and wall both are smooth surfaces

Floor is smooth and the wall is rough

Floor and wall both are rough surfaces

Floor is rough and the wall is smooth

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Applied Mechanics and Graphic Statics
The condition of equilibrium for any system of forces in a plane is

Both (A) and (B)

None of these

That resultant couple must be zero

That polygon of forces must close

Both (A) and (B)

None of these

That resultant couple must be zero

That polygon of forces must close

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Applied Mechanics and Graphic Statics
‘u₁’ and ‘u₂’ are the velocities of approach of two moving bodies in the same direction and their corresponding velocities of separation are ‘v₁’ and ‘v₂’. As per Newton's law of collision of elastic bodies, the coefficient of restitution (e) is given by

e = v₁ - v₂/u₂ + u₁

e = v₁ - v₂/u₂ - u₁

e = v₂ - v₁/u₁ - u₂

e = u₂ - u₁/v₁ - v₂

e = v₁ - v₂/u₂ + u₁

e = v₁ - v₂/u₂ - u₁

e = v₂ - v₁/u₁ - u₂

e = u₂ - u₁/v₁ - v₂

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Applied Mechanics and Graphic Statics
Newton's law of Collision of elastic bodies states that when two moving bodies collide each other, their velocity of separation

Bears a constant ratio to their velocity of approach

Is inversely proportional to their velocity of approach

Is directly proportional to their velocity of approach

Is equal to the sum of their velocities of approach

Bears a constant ratio to their velocity of approach

Is inversely proportional to their velocity of approach

Is directly proportional to their velocity of approach

Is equal to the sum of their velocities of approach

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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

7.5 cm

7.85 cm

8.75 cm

5.0 cm

7.5 cm

7.85 cm

8.75 cm

5.0 cm

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Applied Mechanics and Graphic Statics

Applied Mechanics and Graphic Statics If two forces are in equilibrium, then the forces must(i) Be equal in magnitude(ii) Be opposite in sense(iii) Act along the same line

Applied Mechanics and Graphic Statics A heavy ladder resting on a floor and against a vertical wall may not be in equilibrium, if

Applied Mechanics and Graphic Statics The condition of equilibrium for any system of forces in a plane is

Applied Mechanics and Graphic Statics Newton's law of Collision of elastic bodies states that when two moving bodies collide each other, their velocity of separation

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
If two forces are in equilibrium, then the forces must(i) Be equal in magnitude(ii) Be opposite in sense(iii) Act along the same line

Applied Mechanics and Graphic Statics
A heavy ladder resting on a floor and against a vertical wall may not be in equilibrium, if

Applied Mechanics and Graphic Statics
The condition of equilibrium for any system of forces in a plane is

Applied Mechanics and Graphic Statics
Newton's law of Collision of elastic bodies states that when two moving bodies collide each other, their velocity of separation

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