The Cartesian equation of trajectory is (where u = Velocity of projection, α = Angle of projection, and x, y = Co-ordinates of any point on the trajectory after t seconds.)

Engineering Mechanics
The Cartesian equation of trajectory is (where u = Velocity of projection, α = Angle of projection, and x, y = Co-ordinates of any point on the trajectory after t seconds.)

y = x. tanα + (gx²/2u² cos²α)

y = (gx²/2u² cos²α) - x. tanα

y = x. tanα - (gx²/2u² cos²α)

y = (gx²/2u² cos²α) + x. tanα

y = x. tanα + (gx²/2u² cos²α)

y = (gx²/2u² cos²α) - x. tanα

y = x. tanα - (gx²/2u² cos²α)

y = (gx²/2u² cos²α) + x. tanα

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Engineering Mechanics
If a number of forces are acting at a point, their resultant will be inclined at an angle 'θ' with the horizontal, such that

tanθ = ΣV × ΣH

tanθ = √(ΣV + ΣH)

tanθ = ΣV/ΣH

tanθ = ΣH/ΣV

tanθ = ΣV × ΣH

tanθ = √(ΣV + ΣH)

tanθ = ΣV/ΣH

tanθ = ΣH/ΣV

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Engineering Mechanics
The moment of inertia of a solid sphere of mass ‘m’ and radius ‘r’ is

mr²/2

2mr²/5

2mr²/3

mr²

mr²/2

2mr²/5

2mr²/3

mr²

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Engineering Mechanics
If the gravitational acceleration at any place is doubled, then the weight of a body will be

g

g/2

2g

√2.g

g

g/2

2g

√2.g

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Engineering Mechanics
Angle of friction is the

The ratio of minimum friction force to friction force acting when the body is in motion

Ratio of limiting friction and normal reaction

The ratio of minimum friction force to the friction force acting when the body is just about to move

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

The ratio of minimum friction force to friction force acting when the body is in motion

Ratio of limiting friction and normal reaction

The ratio of minimum friction force to the friction force acting when the body is just about to move

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

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Engineering Mechanics
The angle between two forces when the resultant is maximum and minimum respectively are

90° and 0°

90° and 180°

0° and 180°

180° and 0°

90° and 0°

90° and 180°

0° and 180°

180° and 0°

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Engineering Mechanics

Engineering Mechanics The Cartesian equation of trajectory is (where u = Velocity of projection, α = Angle of projection, and x, y = Co-ordinates of any point on the trajectory after t seconds.)

Engineering Mechanics If a number of forces are acting at a point, their resultant will be inclined at an angle 'θ' with the horizontal, such that

Engineering Mechanics The moment of inertia of a solid sphere of mass ‘m’ and radius ‘r’ is

Engineering Mechanics If the gravitational acceleration at any place is doubled, then the weight of a body will be

Engineering Mechanics Angle of friction is the

Engineering Mechanics The angle between two forces when the resultant is maximum and minimum respectively are

Engineering Mechanics
The Cartesian equation of trajectory is (where u = Velocity of projection, α = Angle of projection, and x, y = Co-ordinates of any point on the trajectory after t seconds.)

Engineering Mechanics
If a number of forces are acting at a point, their resultant will be inclined at an angle 'θ' with the horizontal, such that

Engineering Mechanics
The moment of inertia of a solid sphere of mass ‘m’ and radius ‘r’ is

Engineering Mechanics
If the gravitational acceleration at any place is doubled, then the weight of a body will be

Engineering Mechanics
Angle of friction is the

Engineering Mechanics
The angle between two forces when the resultant is maximum and minimum respectively are