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 the body falls freely under gravity, then the gravitational acceleration is taken as

+8.9 m/s2

-8.9 m/s2

+9.8 m/s2

-9.8 m/s2

+8.9 m/s2

-8.9 m/s2

+9.8 m/s2

-9.8 m/s2

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Engineering Mechanics
Which is the correct statement about law of polygon of forces?

If any number of forces acting at a point can be represented in direction and magnitude by the sides of a polygon taken in order, then the forces are in equilibrium

If a polygon representing forces acting at a point is closed then forces are in equilibrium

If any number of forces acting at a point can be represented in direction and magnitude by the sides of a polygon, then the forces are in equilibrium

If any number of forces acting at a point can be represented by the sides of a polygon taken in order, then the forces are in equilibrium

If any number of forces acting at a point can be represented in direction and magnitude by the sides of a polygon taken in order, then the forces are in equilibrium

If a polygon representing forces acting at a point is closed then forces are in equilibrium

If any number of forces acting at a point can be represented in direction and magnitude by the sides of a polygon, then the forces are in equilibrium

If any number of forces acting at a point can be represented by the sides of a polygon taken in order, then the forces are in equilibrium

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Engineering Mechanics
Centre of gravity of a solid cone lies on the axis at the height

Three eighth of the total height above the base

One third of the total height above base

One-half of the total height above base

One fourth of the total height above base

Three eighth of the total height above the base

One third of the total height above base

One-half of the total height above base

One fourth of the total height above base

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Engineering Mechanics
When a body of mass 'm' attains a velocity 'v' from rest in time 't', then the kinetic energy of translation is

mv2

mgv2

0.5 mgv2

0.5 mv2

mv2

mgv2

0.5 mgv2

0.5 mv2

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Engineering Mechanics
The moment of inertia of a thin spherical shell of mass m and radius r, about its diameter is

2mr²/3

3mr²/5

mr²/3

2mr²/5

2mr²/3

3mr²/5

mr²/3

2mr²/5

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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 the body falls freely under gravity, then the gravitational acceleration is taken as

Engineering Mechanics Which is the correct statement about law of polygon of forces?

Engineering Mechanics Centre of gravity of a solid cone lies on the axis at the height

Engineering Mechanics When a body of mass 'm' attains a velocity 'v' from rest in time 't', then the kinetic energy of translation is

Engineering Mechanics The moment of inertia of a thin spherical shell of mass m and radius r, about its diameter is

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 the body falls freely under gravity, then the gravitational acceleration is taken as

Engineering Mechanics
Which is the correct statement about law of polygon of forces?

Engineering Mechanics
Centre of gravity of a solid cone lies on the axis at the height

Engineering Mechanics
When a body of mass 'm' attains a velocity 'v' from rest in time 't', then the kinetic energy of translation is

Engineering Mechanics
The moment of inertia of a thin spherical shell of mass m and radius r, about its diameter is