The periodic time of one oscillation for a simple pendulum is

Theory of Machine
The periodic time of one oscillation for a simple pendulum is

(1/2π). √(g/l)

2π. √(g/l)

2π. √(l/g)

(1/2π). √(l/g)

(1/2π). √(g/l)

2π. √(g/l)

2π. √(l/g)

(1/2π). √(l/g)

ANSWER DOWNLOAD EXAMIANS APP

Theory of Machine
The displacement of the reciprocating roller follower, when it has contact with the straight flanks of the tangent cam, is given by (where r₁ = Minimum radius of the cam, r₂ = Radius of the roller follower, and θ = Angle turned by the cam from the beginning of the follower displacement)

(r₁ + r₂) [(1 - cosθ)/cosθ]

(r₁ - r₂) [(1 - cosθ)/cosθ]

(r₁ + r₂) (1 + cosθ)

(r₁ - r₂) (1 - cosθ)

(r₁ + r₂) [(1 - cosθ)/cosθ]

(r₁ - r₂) [(1 - cosθ)/cosθ]

(r₁ + r₂) (1 + cosθ)

(r₁ - r₂) (1 - cosθ)

ANSWER DOWNLOAD EXAMIANS APP

Theory of Machine
The danger of breakage and vibration is maximum

Near the critical speed

Below the critical speed

Above the critical speed

None of these

Near the critical speed

Below the critical speed

Above the critical speed

None of these

ANSWER DOWNLOAD EXAMIANS APP

Theory of Machine
The maximum fluctuation of speed is the

Variations of speed above and below the mean resisting torque line

Difference of minimum fluctuation of speed and the mean speed

Sum of maximum and minimum speeds

Difference of the maximum and minimum speeds

Variations of speed above and below the mean resisting torque line

Difference of minimum fluctuation of speed and the mean speed

Sum of maximum and minimum speeds

Difference of the maximum and minimum speeds

ANSWER DOWNLOAD EXAMIANS APP

Theory of Machine
The primary unbalanced force due to inertia of reciprocating parts in a reciprocating engine is given by (where m = Mass of reciprocating parts, ω = Angular speed of crank, r = Radius of crank, θ = Angle of inclination of crank with the line of stroke, and n = Ratio of the length of connecting rod to radius of crank)

m.ω².r cosθ

m.ω².r (cos 2θ/n)

m.ω².r (sin 2θ/n)

m.ω².r sinθ

m.ω².r cosθ

m.ω².r (cos 2θ/n)

m.ω².r (sin 2θ/n)

m.ω².r sinθ

ANSWER DOWNLOAD EXAMIANS APP

Theory of Machine
The velocity of sliding of meshing gear teeth is (Where ω₁ and ω₂ are angular velocities of meshing gears and ‘y’ is distance between point of contact and the pitch point)

(ω₁ + ω₂) y

(ω₁/ω₂) y

(ω₁ + ω₂)/y

(ω₁ × ω₂) y

(ω₁ + ω₂) y

(ω₁/ω₂) y

(ω₁ + ω₂)/y

(ω₁ × ω₂) y

ANSWER DOWNLOAD EXAMIANS APP

Theory of Machine

Theory of Machine The periodic time of one oscillation for a simple pendulum is

Theory of Machine The danger of breakage and vibration is maximum

Theory of Machine The maximum fluctuation of speed is the

Theory of Machine The velocity of sliding of meshing gear teeth is (Where ω₁ and ω₂ are angular velocities of meshing gears and ‘y’ is distance between point of contact and the pitch point)

Theory of Machine
The periodic time of one oscillation for a simple pendulum is

Theory of Machine
The danger of breakage and vibration is maximum

Theory of Machine
The maximum fluctuation of speed is the

Theory of Machine
The velocity of sliding of meshing gear teeth is (Where ω₁ and ω₂ are angular velocities of meshing gears and ‘y’ is distance between point of contact and the pitch point)