The angular velocity (in rad/s) of a body rotating at N revolutions per minute is

Engineering Mechanics
The angular velocity (in rad/s) of a body rotating at N revolutions per minute is

πN/60

2πN/180

2πN/60

πN/180

πN/60

2πN/180

2πN/60

πN/180

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Engineering Mechanics
The principle of transmissibility of forces states that, when a force acts upon a body, its effect is

Minimum, if it acts at the center of gravity of the body

Maximum, if it acts at the center of gravity of the body

Different at different points on its line of action

Same at every point on its line of action

Minimum, if it acts at the center of gravity of the body

Maximum, if it acts at the center of gravity of the body

Different at different points on its line of action

Same at every point on its line of action

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Engineering Mechanics
When a body of mass 'm' attains a velocity 'v' from rest in time 't', then the kinetic energy of translation is

mgv2

0.5 mv2

mv2

0.5 mgv2

mgv2

0.5 mv2

mv2

0.5 mgv2

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

Three eighth of the total height above the base

One-half of the total height above base

One fourth of the total height above base

One third of the total height above base

Three eighth of the total height above the base

One-half of the total height above base

One fourth of the total height above base

One third of the total height above base

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Engineering Mechanics
Which of the following is an equation of linear motion?(where, u and v = Initial and final velocity of the body, a = Acceleration of the body, and s = Displacement of the body in time t seconds.)

v = u + a.t

s = u.t + ½ a.t2

v2 = u2 + 2a.s

All of these

v = u + a.t

s = u.t + ½ a.t2

v2 = u2 + 2a.s

All of these

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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

Engineering Mechanics The angular velocity (in rad/s) of a body rotating at N revolutions per minute is

Engineering Mechanics The principle of transmissibility of forces states that, when a force acts upon a body, its effect is

Engineering Mechanics When a body of mass 'm' attains a velocity 'v' from rest in time 't', then the kinetic energy of translation is

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

Engineering Mechanics Which of the following is an equation of linear motion?(where, u and v = Initial and final velocity of the body, a = Acceleration of the body, and s = Displacement of the body in time t seconds.)

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 angular velocity (in rad/s) of a body rotating at N revolutions per minute is

Engineering Mechanics
The principle of transmissibility of forces states that, when a force acts upon a body, its effect is

Engineering Mechanics
When a body of mass 'm' attains a velocity 'v' from rest in time 't', then the kinetic energy of translation is

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

Engineering Mechanics
Which of the following is an equation of linear motion?(where, u and v = Initial and final velocity of the body, a = Acceleration of the body, and s = Displacement of the body in time t seconds.)

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.)