Three forces acting on a rigid body are represented in magnitude, direction and line of action by the three sides of a triangle taken in order. The forces are equivalent to a couple whose moment is equal to

Engineering Mechanics
Three forces acting on a rigid body are represented in magnitude, direction and line of action by the three sides of a triangle taken in order. The forces are equivalent to a couple whose moment is equal to

None of these

Half the area of the triangle

Twice the area of the triangle

Area of the triangle

None of these

Half the area of the triangle

Twice the area of the triangle

Area of the triangle

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Engineering Mechanics
A couple produces

Combined translatory and rotational motion

Translatory motion

Rotational motion

None of these

Combined translatory and rotational motion

Translatory motion

Rotational motion

None of these

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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
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
If a body is acted upon by a number of coplanar non-concurrent forces, it may

Move in any one direction rotating about itself

Be completely at rest

All of these

Rotate about itself without moving

Move in any one direction rotating about itself

Be completely at rest

All of these

Rotate about itself without moving

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Engineering Mechanics
The mechanical advantage of a lifting machine is the ratio of

Load lifted to the effort applied

Output to the input

All of these

Distance moved by effort to the distance moved by load

Load lifted to the effort applied

Output to the input

All of these

Distance moved by effort to the distance moved by load

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Engineering Mechanics

Engineering Mechanics Three forces acting on a rigid body are represented in magnitude, direction and line of action by the three sides of a triangle taken in order. The forces are equivalent to a couple whose moment is equal to

Engineering Mechanics A couple produces

Engineering Mechanics Non-coplanar concurrent forces are those forces which

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

Engineering Mechanics If a body is acted upon by a number of coplanar non-concurrent forces, it may

Engineering Mechanics The mechanical advantage of a lifting machine is the ratio of

Engineering Mechanics
Three forces acting on a rigid body are represented in magnitude, direction and line of action by the three sides of a triangle taken in order. The forces are equivalent to a couple whose moment is equal to

Engineering Mechanics
A couple produces

Engineering Mechanics
Non-coplanar concurrent forces are those forces which

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

Engineering Mechanics
If a body is acted upon by a number of coplanar non-concurrent forces, it may

Engineering Mechanics
The mechanical advantage of a lifting machine is the ratio of