Volume 1

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Displacement-time equation of a particle executing SHM is x=A sin (omega t+(pi)/6) Time taken by the particle to go directly from x=-A/2 to x=+A/2 is
26
Jun
Displacement-time equation of a particle executing SHM is x=A sin (omega t+(pi)/6) Time taken by the particle to go directly from x=-A/2 to x=+A/2 is Displacement-time equation of a particle executing SHM is x=A sin (omega t+(pi)/6) Time taken by the particle to go directly from x=-A/2 to x=+A/2 is June 26, 2021 Category: Arihant [...]
Posted in: Arihant Physics by D.C Pandey , Chapter 11 - SHM ,
Tags: Displacement-time equation of a particle executing SHM is x=A sin (omega t+(pi)/6) Time taken by the particle to go directly from x=-A/2 to x=+A/2 is ,
A particle of mass 0.1 kg executes SHM under a force F=(−10x)N. Speed of particle at mean position is 6m/s. Then amplitude of oscillations is.
26
Jun
A particle of mass 0.1 kg executes SHM under a force F=(−10x)N. Speed of particle at mean position is 6m/s. Then amplitude of oscillations is. A particle of mass 0.1 kg executes SHM under a force F=(−10x)N. Speed of particle at mean position is 6m/s. Then amplitude of oscillations is. June 26, 2021 Category: Arihant [...]
Posted in: Arihant Physics by D.C Pandey , Chapter 11 - SHM ,
Tags: A particle of mass 0.1 kg executes SHM under a force F=(−10x)N. Speed of particle at mean position is 6m/s. Then amplitude of oscillations is. ,
Acceleration displacement graph of a particle executing S.H.M is as shown in given figure. The time period of its oscillation is (in sec)
26
Jun
Acceleration displacement graph of a particle executing S.H.M is as shown in given figure. The time period of its oscillation is (in sec) Acceleration displacement graph of a particle executing S.H.M is as shown in given figure. The time period of its oscillation is (in sec) June 26, 2021 Category: Arihant Physics by D.C Pandey [...]
Posted in: Arihant Physics by D.C Pandey , Chapter 11 - SHM ,
Tags: Acceleration displacement graph of a particle executing S.H.M is as shown in given figure. The time period of its oscillation is (in sec) ,
A particle performing SHM is found at its equilibrium at t=1 sec and it is found to have a speed of 0.25 m/s at t=2 sec. If the period of oscillation is 6 sec. Calculate amplitude of oscillation
26
Jun
A particle performing SHM is found at its equilibrium at t=1 sec and it is found to have a speed of 0.25 m/s at t=2 sec. If the period of oscillation is 6 sec. Calculate amplitude of oscillation A particle performing SHM is found at its equilibrium at t=1 sec and it is found to [...]
Posted in: Arihant Physics by D.C Pandey , Chapter 11 - SHM ,
Tags: A particle performing SHM is found at its equilibrium at t=1 sec and it is found to have a speed of 0.25 m/s at t=2 sec. If the period of oscillation is 6 sec. Calculate amplitude of oscillation ,
Two particle undergoes SHM along parallel line with the same time period (T) and equal amplitude At a particular instant , one particle is at its extreme position while the other is at its mean position .They move in the same direction. They will cross each other after a further time
26
Jun
Two particle undergoes SHM along parallel line with the same time period (T) and equal amplitude At a particular instant , one particle is at its extreme position while the other is at its mean position .They move in the same direction. They will cross each other after a further time one particle is at [...]
Posted in: Arihant Physics by D.C Pandey , Chapter 11 - SHM ,
Tags: one particle is at its extreme position while the other is at its mean position .They move in the same direction. They will cross each other after a further time , Two particle undergoes SHM along parallel line with the same time period (T) and equal amplitude At a particular instant ,
The time taken by a particle performing SHM on a straight line to pass from point A to B where its velocities are same is 2 seconds .After another 2 seconds it return to B The time period of oscillation is (in seconds)
26
Jun
The time taken by a particle performing SHM on a straight line to pass from point A to B where its velocities are same is 2 seconds .After another 2 seconds it return to B The time period of oscillation is (in seconds) Equation of SHM is x=10 sin10 pi t. Find the distance between [...]
Posted in: Arihant Physics by D.C Pandey , Chapter 11 - SHM ,
Tags: Equation of SHM is x=10 sin10 pi t. Find the distance between the two points where speed is 50 pi cm/s. x is in cm and t is in seconds. ,
The oscillations represented by curve 1 in the graph are expressed by equation x​=Asin ωt. The equation for the oscillations represented by curve 2 is expressed as
26
Jun
The oscillations represented by curve 1 in the graph are expressed by equation x​=Asin ωt. The equation for the oscillations represented by curve 2 is expressed as The oscillations represented by curve 1 in the graph are expressed by equation x​=Asin ωt. The equation for the oscillations represented by curve 2 is expressed as June [...]
Posted in: Arihant Physics by D.C Pandey , Chapter 11 - SHM ,
Tags: The oscillations represented by curve 1 in the graph are expressed by equation x​=Asin ωt. The equation for the oscillations represented by curve 2 is expressed as ,
A cuboidal piece of wood has dimensions a, b and c. Its relative density is d. It is floating in a large body of water such that side a is vertical. It is pushed down a bit and released. The time period of SHM executed by it is:
26
Jun
A cuboidal piece of wood has dimensions a, b and c. Its relative density is d. It is floating in a large body of water such that side a is vertical. It is pushed down a bit and released. The time period of SHM executed by it is: A cuboidal piece of wood has dimensions [...]
Posted in: Arihant Physics by D.C Pandey , Chapter 11 - SHM ,
Tags: A cuboidal piece of wood has dimensions a , b and c. Its relative density is d. It is floating in a large body of water such that side a is vertical. It is pushed down a bit and released. The time period of SHM executed by it is: ,
A scientist measures the time period of a simple pendulum as T in a lift at rest. If the lift moves up with an acceleration equal to one-fourth of the acceleration of gravity, the new time period is
26
Jun
A scientist measures the time period of a simple pendulum as T in a lift at rest. If the lift moves up with an acceleration equal to one-fourth of the acceleration of gravity, the new time period is A scientist measures the time period of a simple pendulum as T in a lift at rest. [...]
Posted in: Arihant Physics by D.C Pandey , Chapter 11 - SHM ,
Tags: A scientist measures the time period of a simple pendulum as T in a lift at rest. If the lift moves up with an acceleration equal to one-fourth of the acceleration of gravity , the new time period is ,
Equation of SHM is x=10 sin10 pi t. Find the distance between the two points where speed is 50 pi cm/s. x is in cm and t is in seconds.
26
Jun
Equation of SHM is x=10 sin10 pi t. Find the distance between the two points where speed is 50 pi cm/s. x is in cm and t is in seconds. Equation of SHM is x=10 sin10 pi t. Find the distance between the two points where speed is 50 pi cm/s. x is in cm [...]
Posted in: Arihant Physics by D.C Pandey , Chapter 11 - SHM ,
Tags: Equation of SHM is x=10 sin10 pi t. Find the distance between the two points where speed is 50 pi cm/s. x is in cm and t is in seconds. ,