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Stretching of a rubber band results in _______.
(A) no change in potential energy.
(B) zero value of potential energy.
(C) increase in potential energy.
(D) decrease in potential energy.
Concept: Elastic Energy
A mass of 1 kg is hung from a steel wire if radius 0.5 mm and length 4 m. Calculate the extension produced. What should be the area of cross-section of the wire so that elastic limit is not exceeded? Change in radius is negligible
(Given : g = 9.8 m/s2; Elastic limit of steel is 2.4 x 108 N/m2;Y for steel (Ysteel) = 20 x 1010 N/m2; π = 3.142)
Concept: Behaviour of Metal Wire Under Increasing Load
Within the elastic limit, find the work done by a stretching force on a wire.
Concept: Elastic Energy
Define linear simple harmonic motion.
Concept: Linear Simple Harmonic Motion (S.H.M.)
Two wires of the same material have radii rA and rB respectively. The radius of wire A is twice the radius of wire B. If they are stretched by same load then stress on wire B is _______.
Concept: Eneral Explanation of Elastic Property
The S.I. unit of compressibility is __________.
Concept: Application of Elastic Behaviour of Materials
Answer in brief:
Derive an expression for the period of motion of a simple pendulum. On which factors does it depend?
Concept: Periodic and Oscillatory Motion
A particle executing linear S.H.M. has velocities v1 and v2 at distances x1 and x2 respectively from the mean position. The angular velocity of the particle is _______
Concept: Differential Equation of Linear S.H.M.
The compressibility of a substance is the reciprocal of _________.
(a) Young’s modulus
(b) bulk modulus
(c) modulus of rigidity
(d) Poisson's ratio
Concept: Eneral Explanation of Elastic Property
A particle performing linear S.H.M. has the maximum velocity of 25 cm/s and maximum acceleration of 100 cm/ m2. Find the amplitude and period of oscillation. (π = 3.142)
Concept: Differential Equation of Linear S.H.M.
The length of the second’s pendulum in a clock is increased to 4 times its initial length. Calculate the number of oscillations completed by the new pendulum in one minute.
Concept: Periodic and Oscillatory Motion
State Hooke’s law. Define the elastic limit and modulus of elasticity.
Concept: Hooke’s Law
From differential equation of linear S.H.M., obtain an expression for acceleration, velocity and displacement of a particle performing S.H.M.
Concept: Differential Equation of Linear S.H.M.
A body of mass 1 kg is mafe to oscillate on a spring of force constant 16 N/m. Calculate (a) Angular frequency, (b) Frequency of vibrations.
Concept: Periodic and Oscillatory Motion
Obtain the expression for the period of a simple pendulum performing S.H.M.
Concept: Simple Pendulum
A particle performing linear S.H.M. of period 2π seconds about the mean position O is observed to have a speed of `"b" sqrt3` m/s, when at a distance b (metre) from O. If the particle is moving away from O at that instant, find the time required by the particle, to travel a further distance b.
Concept: Oscillations
Answer in brief.
Using differential equations of linear S.H.M, obtain the expression for (a) velocity in S.H.M., (b) acceleration in S.H.M.
Concept: Acceleration (a), Velocity (v) and Displacement (x) of S.H.M.
At what distance from the mean position is the speed of a particle performing S.H.M. half its maximum speed. Given the path length of S.H.M. = 10 cm.
Concept: The Energy of a Particle Performing S.H.M.
A particle is moving in a circle with uniform speed. Its motion is ______
Concept: Explanation of Periodic Motion
Acceleration of a particle executing S.H.M. at its mean position.
Concept: Acceleration (a), Velocity (v) and Displacement (x) of S.H.M.
