The moment of inertia of a thin rod of mass 'm' and length 'l', about an axis through its centre of gravity and perpendicular to its length is

Engineering Mechanics
The moment of inertia of a thin rod of mass 'm' and length 'l', about an axis through its centre of gravity and perpendicular to its length is

ml2/ 6

ml2/4

ml2/8

ml2/12

ml2/ 6

ml2/4

ml2/8

ml2/12

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

One third of the total height above base

Three eighth of the total height above the base

One fourth of the total height above base

One-half of the total height above base

One third of the total height above base

Three eighth of the total height above the base

One fourth of the total height above base

One-half of the total height above base

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Engineering Mechanics
The C.G. of a solid hemisphere lies on the central radius 3r

At distance — from the plane base 3r

At distance — from the plane base

At distance — from the plane base 3r

At distance — from the plane base

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Engineering Mechanics
The law of the machine is (where P = Effort applied to lift the load, m = A constant which is equal to the slope of the line, W = Load lifted, and C = Another constant which represents the machine friction.)

P = mW + C

P = mW - C

P = m/W + C

P = C - mW

P = mW + C

P = mW - C

P = m/W + C

P = C - mW

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Engineering Mechanics
The moment of inertia of a square of side (a) about an axis through its center of gravity is

a4/4

a4/12

a4/36

a4/8

a4/4

a4/12

a4/36

a4/8

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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

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

None of these

Slant down towards direction of pull

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Engineering Mechanics

Engineering Mechanics The moment of inertia of a thin rod of mass 'm' and length 'l', about an axis through its centre of gravity and perpendicular to its length is

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

Engineering Mechanics The C.G. of a solid hemisphere lies on the central radius 3r

Engineering Mechanics The law of the machine is (where P = Effort applied to lift the load, m = A constant which is equal to the slope of the line, W = Load lifted, and C = Another constant which represents the machine friction.)

Engineering Mechanics The moment of inertia of a square of side (a) about an axis through its center of gravity is

Engineering Mechanics
The moment of inertia of a thin rod of mass 'm' and length 'l', about an axis through its centre of gravity and perpendicular to its length is

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

Engineering Mechanics
The C.G. of a solid hemisphere lies on the central radius 3r

Engineering Mechanics
The law of the machine is (where P = Effort applied to lift the load, m = A constant which is equal to the slope of the line, W = Load lifted, and C = Another constant which represents the machine friction.)

Engineering Mechanics
The moment of inertia of a square of side (a) about an axis through its center of gravity is