The time of flight (t) of a projectile on an upward inclined plane is(where u = Velocity of projection, α = Angle of projection, and β = Inclination of the plane with the horizontal.)

Engineering Mechanics
The time of flight (t) of a projectile on an upward inclined plane is(where u = Velocity of projection, α = Angle of projection, and β = Inclination of the plane with the horizontal.)

t = 2u sin (α + β)/g cos β

t = g cos β/2u sin (α - β)

t = g cos β/2u sin (α + β)

t = 2u sin (α - β)/g cos β

t = 2u sin (α + β)/g cos β

t = g cos β/2u sin (α - β)

t = g cos β/2u sin (α + β)

t = 2u sin (α - β)/g cos β

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Engineering Mechanics
Mass moment of inertia of a uniform thin rod of mass M and length (l) about its mid-point and perpendicular to its length is

(2/3) Ml²

(1/12) Ml²

(3/4) Ml²

(1/3) Ml²

(2/3) Ml²

(1/12) Ml²

(3/4) Ml²

(1/3) Ml²

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Engineering Mechanics
For any system of coplanar forces, the condition of equilibrium is that the

Algebraic sum of the vertical components of all the forces should be zero

Algebraic sum of the horizontal components of all the forces should be zero

All of these

Algebraic sum of moments of all the forces about any point should be zero

Algebraic sum of the vertical components of all the forces should be zero

Algebraic sum of the horizontal components of all the forces should be zero

All of these

Algebraic sum of moments of all the forces about any point should be zero

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Engineering Mechanics
The velocity ratio of a differential wheel and axle with 'D' as the diameter of effort wheel and d1 and d2 as the diameters of larger and smaller axles respectively, is

D/(d₁ + d₂)

D/(d₁ - d₂)

2D/(d₁ + d₂)

2D/(d₁ - d₂)

D/(d₁ + d₂)

D/(d₁ - d₂)

2D/(d₁ + d₂)

2D/(d₁ - d₂)

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Engineering Mechanics
The rate of doing work is known as

Power

None of these

Kinetic energy

Potential energy

Power

None of these

Kinetic energy

Potential energy

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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

Engineering Mechanics The time of flight (t) of a projectile on an upward inclined plane is(where u = Velocity of projection, α = Angle of projection, and β = Inclination of the plane with the horizontal.)

Engineering Mechanics Mass moment of inertia of a uniform thin rod of mass M and length (l) about its mid-point and perpendicular to its length is

Engineering Mechanics For any system of coplanar forces, the condition of equilibrium is that the

Engineering Mechanics The velocity ratio of a differential wheel and axle with 'D' as the diameter of effort wheel and d1 and d2 as the diameters of larger and smaller axles respectively, is

Engineering Mechanics The rate of doing work is known as

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
The time of flight (t) of a projectile on an upward inclined plane is(where u = Velocity of projection, α = Angle of projection, and β = Inclination of the plane with the horizontal.)

Engineering Mechanics
Mass moment of inertia of a uniform thin rod of mass M and length (l) about its mid-point and perpendicular to its length is

Engineering Mechanics
For any system of coplanar forces, the condition of equilibrium is that the

Engineering Mechanics
The velocity ratio of a differential wheel and axle with 'D' as the diameter of effort wheel and d1 and d2 as the diameters of larger and smaller axles respectively, is

Engineering Mechanics
The rate of doing work is known as

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.)