The equation of motion for a vibrating system with viscous damping is (d²x/dt²) + (c/m).(dx/dt) + (s/m).x = 0, if the roots of the equation are __________ then the system will be under damped.

Theory of Machine
The equation of motion for a vibrating system with viscous damping is (d²x/dt²) + (c/m).(dx/dt) + (s/m).x = 0, if the roots of the equation are __________ then the system will be under damped.

Equal

Real

None of these

Complex conjugate

Equal

Real

None of these

Complex conjugate

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Theory of Machine
A torsional system with discs of moment of inertia I₁ and I₂ as shown in the below figure, is gear driven such that the ratio of speed of shaft B to shaft A is 'G'. Neglecting the inertia of gears, the equivalent inertia of disc on shaft B at the speed of shaft A is equal to

I₂/G²

G.I₂

I₂/G

G².I₂

I₂/G²

G.I₂

I₂/G

G².I₂

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Theory of Machine
The pressure angle of a cam depends upon

All of these

Angle of ascent

Offset between center lines of cam and follower

Lift of follower

All of these

Angle of ascent

Offset between center lines of cam and follower

Lift of follower

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Theory of Machine
When a body is subjected to transverse vibrations, the stress induced in a body will be

Compressive stress

Bending stress

Tensile stress

Shear stress

Compressive stress

Bending stress

Tensile stress

Shear stress

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Theory of Machine
TJIE horse power transmitted by a belt is dependent upon

All of these

Tension on tight side of belt

Radius of pulley

Tension on slack side of belt

All of these

Tension on tight side of belt

Radius of pulley

Tension on slack side of belt

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Theory of Machine
A disc is a spinning with an angular velocity ω rad/s about the axis of spin. The couple applied to the disc causing precession will be (where I = Mass moment of inertia of the disc, and ωP = Angular velocity of precession of the axis of spin)

(1/2).Iω²

Iω²

(1/2). I ω ωP

I ω ωP

(1/2).Iω²

Iω²

(1/2). I ω ωP

I ω ωP

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Theory of Machine

Theory of Machine The equation of motion for a vibrating system with viscous damping is (d²x/dt²) + (c/m).(dx/dt) + (s/m).x = 0, if the roots of the equation are __________ then the system will be under damped.

Theory of Machine A torsional system with discs of moment of inertia I₁ and I₂ as shown in the below figure, is gear driven such that the ratio of speed of shaft B to shaft A is 'G'. Neglecting the inertia of gears, the equivalent inertia of disc on shaft B at the speed of shaft A is equal to

Theory of Machine The pressure angle of a cam depends upon

Theory of Machine When a body is subjected to transverse vibrations, the stress induced in a body will be

Theory of Machine TJIE horse power transmitted by a belt is dependent upon

Theory of Machine A disc is a spinning with an angular velocity ω rad/s about the axis of spin. The couple applied to the disc causing precession will be (where I = Mass moment of inertia of the disc, and ωP = Angular velocity of precession of the axis of spin)

Theory of Machine
The equation of motion for a vibrating system with viscous damping is (d²x/dt²) + (c/m).(dx/dt) + (s/m).x = 0, if the roots of the equation are __________ then the system will be under damped.

Theory of Machine
A torsional system with discs of moment of inertia I₁ and I₂ as shown in the below figure, is gear driven such that the ratio of speed of shaft B to shaft A is 'G'. Neglecting the inertia of gears, the equivalent inertia of disc on shaft B at the speed of shaft A is equal to

Theory of Machine
The pressure angle of a cam depends upon

Theory of Machine
When a body is subjected to transverse vibrations, the stress induced in a body will be

Theory of Machine
TJIE horse power transmitted by a belt is dependent upon

Theory of Machine
A disc is a spinning with an angular velocity ω rad/s about the axis of spin. The couple applied to the disc causing precession will be (where I = Mass moment of inertia of the disc, and ωP = Angular velocity of precession of the axis of spin)