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

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

3mr²/5

mr²/3

2mr²/3

2mr²/5

3mr²/5

mr²/3

2mr²/3

2mr²/5

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Engineering Mechanics
If two bodies having masses m1 and m2 (m1>m2) have equal kinetic energies, the momentum of body having mass m1 is _________ the momentum of body having mass m2.

Equal to

Greater than

Less than

None of these

Equal to

Greater than

Less than

None of these

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Engineering Mechanics
The center of gravity of a quadrant of a circle lies along its central radius (r) at a distance of

0.8 r

0.6 r

0.7 r

0.5 r

0.8 r

0.6 r

0.7 r

0.5 r

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Engineering Mechanics
The resultant of the two forces ‘P’ and ‘Q’ is ‘R’. If ‘Q’ is doubled, the new resultant is perpendicular to ‘P’. Then

Q = R

None of the listed here

Q = 2R

P = Q

Q = R

None of the listed here

Q = 2R

P = Q

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Engineering Mechanics
The resolved part of the resultant of two forces inclined at an angle 'θ' in a given direction is equal to

The difference of the forces multiplied by the cosine of θ

The sum of the resolved parts of the forces in the given direction

The sum of the forces multiplied by the sine of θ

The algebraic sum of the resolved parts of the forces in the given direction

The difference of the forces multiplied by the cosine of θ

The sum of the resolved parts of the forces in the given direction

The sum of the forces multiplied by the sine of θ

The algebraic sum of the resolved parts of the forces in the given direction

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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 = 2u sin (α - β)/g cos β

t = g cos β/2u sin (α + β)

t = 2u sin (α + β)/g cos β

t = g cos β/2u sin (α - β)

t = 2u sin (α - β)/g cos β

t = g cos β/2u sin (α + β)

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Engineering Mechanics

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

Engineering Mechanics If two bodies having masses m1 and m2 (m1>m2) have equal kinetic energies, the momentum of body having mass m1 is _________ the momentum of body having mass m2.

Engineering Mechanics The center of gravity of a quadrant of a circle lies along its central radius (r) at a distance of

Engineering Mechanics The resultant of the two forces ‘P’ and ‘Q’ is ‘R’. If ‘Q’ is doubled, the new resultant is perpendicular to ‘P’. Then

Engineering Mechanics The resolved part of the resultant of two forces inclined at an angle 'θ' in a given direction is equal to

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

Engineering Mechanics
If two bodies having masses m1 and m2 (m1>m2) have equal kinetic energies, the momentum of body having mass m1 is _________ the momentum of body having mass m2.

Engineering Mechanics
The center of gravity of a quadrant of a circle lies along its central radius (r) at a distance of

Engineering Mechanics
The resultant of the two forces ‘P’ and ‘Q’ is ‘R’. If ‘Q’ is doubled, the new resultant is perpendicular to ‘P’. Then

Engineering Mechanics
The resolved part of the resultant of two forces inclined at an angle 'θ' in a given direction is equal to

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.)