When a body moves with simple harmonic motion, the product of its periodic time and frequency is equal to

Theory of Machine
When a body moves with simple harmonic motion, the product of its periodic time and frequency is equal to

π/2

One

Zero

π

π/2

One

Zero

π

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Theory of Machine
A governor is said to be stable, if the

Radius of rotation of balls increases as the equilibrium speed increases

Radius of rotation of balls increases as the equilibrium speed decreases

Radius of rotation of balls decreases as the equilibrium speed decreases

Radius of rotation of balls decreases as the equilibrium speed increases

Radius of rotation of balls increases as the equilibrium speed increases

Radius of rotation of balls increases as the equilibrium speed decreases

Radius of rotation of balls decreases as the equilibrium speed decreases

Radius of rotation of balls decreases as the equilibrium speed increases

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Theory of Machine
A single degree of freedom system is given by, m × (d²x/dt²) + c × (dx/dt) + sx = F.cosω.t with usual notations. It represents

Free vibration with damping

Forced vibration without damping

Free vibration without damping

Forced vibration with damping

Free vibration with damping

Forced vibration without damping

Free vibration without damping

Forced vibration with damping

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Theory of Machine
The ratio of the maximum displacement of the forced vibration to the deflection due to the static force, is known as

Damping factor

Damping coefficient

Logarithmic decrement

Magnification factor

Damping factor

Damping coefficient

Logarithmic decrement

Magnification factor

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Theory of Machine
In a four-bar chain it is required to give an oscillatory motion to the follower for a continuous rotation of the crank. For the lengths of 50 mm of crank and 70 mm of the follower, determine theoretical maximum length of coupler. The minimum length of the coupler will be

Slightly more than 45 mm

45 mm

95 mm

Slightly less than 45 mm

Slightly more than 45 mm

45 mm

95 mm

Slightly less than 45 mm

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Theory of Machine
In a shaper mechanism, the Coriolis component of acceleration will

Not exist

Exist

Depend on position of crank

None of these

Not exist

Exist

Depend on position of crank

None of these

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Theory of Machine

Theory of Machine When a body moves with simple harmonic motion, the product of its periodic time and frequency is equal to

Theory of Machine A governor is said to be stable, if the

Theory of Machine A single degree of freedom system is given by, m × (d²x/dt²) + c × (dx/dt) + sx = F.cosω.t with usual notations. It represents

Theory of Machine The ratio of the maximum displacement of the forced vibration to the deflection due to the static force, is known as

Theory of Machine In a four-bar chain it is required to give an oscillatory motion to the follower for a continuous rotation of the crank. For the lengths of 50 mm of crank and 70 mm of the follower, determine theoretical maximum length of coupler. The minimum length of the coupler will be

Theory of Machine In a shaper mechanism, the Coriolis component of acceleration will

Theory of Machine
When a body moves with simple harmonic motion, the product of its periodic time and frequency is equal to

Theory of Machine
A governor is said to be stable, if the

Theory of Machine
A single degree of freedom system is given by, m × (d²x/dt²) + c × (dx/dt) + sx = F.cosω.t with usual notations. It represents

Theory of Machine
The ratio of the maximum displacement of the forced vibration to the deflection due to the static force, is known as

Theory of Machine
In a four-bar chain it is required to give an oscillatory motion to the follower for a continuous rotation of the crank. For the lengths of 50 mm of crank and 70 mm of the follower, determine theoretical maximum length of coupler. The minimum length of the coupler will be

Theory of Machine
In a shaper mechanism, the Coriolis component of acceleration will