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## Popular Questions

- A particle starts S.H.M. from the mean position
- A particle is executing simple harmonic motion with the a period of T second and amplitude Î± metre
- In the figure
- A particle performs simple harmonic motion with amplitude A
- The motion of a particle is given by
- Two points are located at a distanceof 10m and 15m from the source of oscillation
- This displacement of a particle along the x axis is given by
- A simple harmonic oscillator has an amplitude Î± and time period T. The time required by it to travel from x = Î± to x = Î±/..
- A particle moves in x-y plane according to rule
- When two displacement represented by
- The restoring force of SHM is maximum when particle
- A simple harmonic oscillator oscillates, with an amplitude A
- Two simple harmonic motions are represented by
- Two particles are executing simple harmonic motion of the same amplitude A and frequency w along with x-axis
- Which of the following equations does not represent a simple harmonic motion
- The intensity ratio of two waves is 1 : 9. The ratio of their amplitudes, is
- A particle executes a simple harmonic motion of time period T
- A particle executing simple harmonic motion along y-axis
- A coin is placed on a horizontal platform which undergoes
- The equation of S.H.M. is y = Î± sin
- Two simple harmonic motions are given by
- Out of the following functions representing motion of a particle which represents SHM
- A simple harmonic motion is represented by F(t) = 10 sin (20 t+0.5) . The amplitude of the S.H.M. is
- Sound waves transfer
- The equation of a simple harmonic wave is given by y=6 sin 2Ï€(2t-0.1x), where x and y in mm and t is in seconds
- The equation describing the motion of a simple harmonic oscillator along the x axis is given as
- Two tuning forks, A and B produce notes of frequencies 258 Hz and 262 Hz. An unknown note sounded with a produces certain beats. W..
- Two strings A and B are slightly out tune and produces beats of frequency 5 Hz. Increasing the tension in B, reduces the beat freq..
- The frequency and velocity of sound wave are 600 Hz and 360 m/s respectively. Phase difference between two particles of medium are..
- A string of mass 3 kg is under tension of 400 N. The length of the stretched string is 25 cm. If the transverse jerk is stuck at o..
- At a certain instant, a stationary transverse wave is found to have maximum kinetic energy. The appearance of string at that insta..
- A point source emits sound equally in all directions in a non-absorbing medium. Two points P and Q are at distances of 2m and 3m r..
- an automobile traveling with a speed of 60 km/h, can break
- a particle has an initial velocity of 3i+4j and an
- An object Specific gravity p is hung from a thim steel wire. the fundamental frequency for transverse standing wave in the wire is..
- A sonometer wire of length 1.5 m is made of steel. The tension in it produces an elastic strain of 1%. What is the fundamental fre..
- A string of mass 3 kg is under tension of 400 N. The length of the stretched string is 25 cm. If the transverse jerk is stuck at o..
- an object, moving with a speed of 6.25m/s, is decelerate
- Which quantity is transmitted with propagation of longitudinal waves through a medium?
- A string of density 7.5 g cm^-3 and area of cross-section 0.2 mm^2 is stretched under a tension of 20 N. When it is plucked at the..

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## Popular Questions

- A particle starts S.H.M. from the mean position
- A particle is executing simple harmonic motion with the a period of T second and amplitude Î± metre
- In the figure
- A particle performs simple harmonic motion with amplitude A
- The motion of a particle is given by
- Two points are located at a distanceof 10m and 15m from the source of oscillation
- This displacement of a particle along the x axis is given by
- A simple harmonic oscillator has an amplitude Î± and time period T. The time required by it to travel from x = Î± to x = Î±/..
- A particle moves in x-y plane according to rule
- When two displacement represented by
- The restoring force of SHM is maximum when particle
- A simple harmonic oscillator oscillates, with an amplitude A
- Two simple harmonic motions are represented by
- Two particles are executing simple harmonic motion of the same amplitude A and frequency w along with x-axis
- Which of the following equations does not represent a simple harmonic motion
- The intensity ratio of two waves is 1 : 9. The ratio of their amplitudes, is
- A particle executes a simple harmonic motion of time period T
- A particle executing simple harmonic motion along y-axis
- A coin is placed on a horizontal platform which undergoes
- The equation of S.H.M. is y = Î± sin
- Two simple harmonic motions are given by
- Out of the following functions representing motion of a particle which represents SHM
- A simple harmonic motion is represented by F(t) = 10 sin (20 t+0.5) . The amplitude of the S.H.M. is
- Sound waves transfer
- The equation of a simple harmonic wave is given by y=6 sin 2Ï€(2t-0.1x), where x and y in mm and t is in seconds
- The equation describing the motion of a simple harmonic oscillator along the x axis is given as
- Two tuning forks, A and B produce notes of frequencies 258 Hz and 262 Hz. An unknown note sounded with a produces certain beats. W..
- Two strings A and B are slightly out tune and produces beats of frequency 5 Hz. Increasing the tension in B, reduces the beat freq..
- The frequency and velocity of sound wave are 600 Hz and 360 m/s respectively. Phase difference between two particles of medium are..
- A string of mass 3 kg is under tension of 400 N. The length of the stretched string is 25 cm. If the transverse jerk is stuck at o..
- At a certain instant, a stationary transverse wave is found to have maximum kinetic energy. The appearance of string at that insta..
- A point source emits sound equally in all directions in a non-absorbing medium. Two points P and Q are at distances of 2m and 3m r..
- an automobile traveling with a speed of 60 km/h, can break
- a particle has an initial velocity of 3i+4j and an
- An object Specific gravity p is hung from a thim steel wire. the fundamental frequency for transverse standing wave in the wire is..
- A sonometer wire of length 1.5 m is made of steel. The tension in it produces an elastic strain of 1%. What is the fundamental fre..
- an object, moving with a speed of 6.25m/s, is decelerate
- Which quantity is transmitted with propagation of longitudinal waves through a medium?
- A string of density 7.5 g cm^-3 and area of cross-section 0.2 mm^2 is stretched under a tension of 20 N. When it is plucked at the..