The potential energy of a vertically raised body is __________ the kinetic energy of a vertically falling body.

Engineering Mechanics
The potential energy of a vertically raised body is __________ the kinetic energy of a vertically falling body.

None of these

Greater than

Less than

Equal to

None of these

Greater than

Less than

Equal to

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Engineering Mechanics
The term 'Centroid' is

The point of suspension

None of the listed here

The point of application of the resultant of all the forces tending to cause a body to rotate about a certain axis

The same as centre of gravity

The point of suspension

None of the listed here

The point of application of the resultant of all the forces tending to cause a body to rotate about a certain axis

The same as centre of gravity

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Engineering Mechanics
For any system of coplanar forces, the condition of equilibrium is that the

Algebraic sum of the vertical components of all the forces should be zero

All of these

Algebraic sum of the horizontal components of all the forces should be zero

Algebraic sum of moments of all the forces about any point should be zero

Algebraic sum of the vertical components of all the forces should be zero

All of these

Algebraic sum of the horizontal components of all the forces should be zero

Algebraic sum of moments of all the forces about any point should be zero

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Engineering Mechanics
The centre of percussion of the homogeneous rod of length ‘L’ suspended at the top will be

L/3

2L/3

L/2

3L/4

L/3

2L/3

L/2

3L/4

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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 = C - mW

P = m/W + C

P = mW + C

P = mW - C

P = C - mW

P = m/W + C

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Engineering Mechanics
The velocity of a particle (v) moving with simple harmonic motion, at any instant is given by (where, r = Amplitude of motion, and y = Displacement of the particle from mean position.)

ω².√(r² - y²)

ω.√(y² - r²)

ω².√(y² - r²)

ω.√(r² - y²)

ω².√(r² - y²)

ω.√(y² - r²)

ω².√(y² - r²)

ω.√(r² - y²)

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Engineering Mechanics

Engineering Mechanics The potential energy of a vertically raised body is __________ the kinetic energy of a vertically falling body.

Engineering Mechanics The term 'Centroid' is

Engineering Mechanics For any system of coplanar forces, the condition of equilibrium is that the

Engineering Mechanics The centre of percussion of the homogeneous rod of length ‘L’ suspended at the top will be

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 velocity of a particle (v) moving with simple harmonic motion, at any instant is given by (where, r = Amplitude of motion, and y = Displacement of the particle from mean position.)

Engineering Mechanics
The potential energy of a vertically raised body is __________ the kinetic energy of a vertically falling body.

Engineering Mechanics
The term 'Centroid' is

Engineering Mechanics
For any system of coplanar forces, the condition of equilibrium is that the

Engineering Mechanics
The centre of percussion of the homogeneous rod of length ‘L’ suspended at the top will be

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 velocity of a particle (v) moving with simple harmonic motion, at any instant is given by (where, r = Amplitude of motion, and y = Displacement of the particle from mean position.)