The moment of inertia of a sphere of mass 'm' and radius 'r', about an axis tangential to it, is

Engineering Mechanics
The moment of inertia of a sphere of mass 'm' and radius 'r', about an axis tangential to it, is

7mr²/3

2mr²/3

7mr²/5

2mr²/5

7mr²/3

2mr²/3

7mr²/5

2mr²/5

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Engineering Mechanics
A semicircular disc rests on a horizontal surface with its top flat surface horizontal and circular portion touching down. The coefficient of friction between semi circular disc and horizontal surface is µ. This disc is to be pulled by a horizontal force applied at one edge and it always remains horizontal. When the disc is about to start moving, its top horizontal force will

None of these

Slant down towards direction of pull

Slant up towards direction of pull

Remain horizontal

None of these

Slant down towards direction of pull

Slant up towards direction of pull

Remain horizontal

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Engineering Mechanics
Non-coplanar concurrent forces are those forces which

Do not meet at one point and their lines of action do not lie on the same plane

Meet at one point, but their lines of action do not lie on the same plane

Do not meet at one point, but their lines of action lie on the same plane

Meet at one point and their lines of action also lie on the same plane

Do not meet at one point and their lines of action do not lie on the same plane

Meet at one point, but their lines of action do not lie on the same plane

Do not meet at one point, but their lines of action lie on the same plane

Meet at one point and their lines of action also lie on the same plane

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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
The time of flight (t) of a projectile on a horizontal plane is given by

t = 2u/g.sinα

t = 2u. tanα/g

t = 2u. cosα/g

t = 2u. sinα/g

t = 2u/g.sinα

t = 2u. tanα/g

t = 2u. cosα/g

t = 2u. sinα/g

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Engineering Mechanics
The velocity ratio of a differential pulley block with D and d as the diameters of larger and smaller pulley, is

D/(D + d)

2D/(D - d)

D/(D - d)

2D/(D + d)

D/(D + d)

2D/(D - d)

D/(D - d)

2D/(D + d)

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Engineering Mechanics

Engineering Mechanics The moment of inertia of a sphere of mass 'm' and radius 'r', about an axis tangential to it, is

Engineering Mechanics Non-coplanar concurrent forces are those forces which

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 The time of flight (t) of a projectile on a horizontal plane is given by

Engineering Mechanics The velocity ratio of a differential pulley block with D and d as the diameters of larger and smaller pulley, is

Engineering Mechanics
The moment of inertia of a sphere of mass 'm' and radius 'r', about an axis tangential to it, is

Engineering Mechanics
Non-coplanar concurrent forces are those forces which

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
The time of flight (t) of a projectile on a horizontal plane is given by

Engineering Mechanics
The velocity ratio of a differential pulley block with D and d as the diameters of larger and smaller pulley, is