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 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 point, through which the whole weight of the body acts, irrespective of its position, is known as

Moment of inertia

Center of percussion

Center of mass

Center of gravity

Moment of inertia

Center of percussion

Center of mass

Center of gravity

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Engineering Mechanics
In a screw jack, the effort required to lower the load is __________ the effort required to raise the same load.

None of these

Equal to

Less than

More than

None of these

Equal to

Less than

More than

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Engineering Mechanics
The moment of inertia of a square of side a about its diagonal is

a²/8

a³/12

a⁴/16

a⁴/12

a²/8

a³/12

a⁴/16

a⁴/12

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Engineering Mechanics
A machine having an efficiency less than 50%, is known as

Neither reversible nor non-reversible machine

Non-reversible machine

Reversible machine

Ideal machine

Neither reversible nor non-reversible machine

Non-reversible machine

Reversible machine

Ideal machine

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

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Engineering Mechanics

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 point, through which the whole weight of the body acts, irrespective of its position, is known as

Engineering Mechanics In a screw jack, the effort required to lower the load is __________ the effort required to raise the same load.

Engineering Mechanics The moment of inertia of a square of side a about its diagonal is

Engineering Mechanics A machine having an efficiency less than 50%, is known as

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

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 point, through which the whole weight of the body acts, irrespective of its position, is known as

Engineering Mechanics
In a screw jack, the effort required to lower the load is __________ the effort required to raise the same load.

Engineering Mechanics
The moment of inertia of a square of side a about its diagonal is

Engineering Mechanics
A machine having an efficiency less than 50%, is known as

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