Home
Class 12
PHYSICS
A block M hangs vertically at the bottom...

A block M hangs vertically at the bottom end of a uniform rope of constant mass per unit length. The top end of the rope is attached to a fixed rigid support at O. A transverse wave pulse (Pulse 1) of wavelength `lamda_(0)` is produced at point O on the rope. The pulse takes time `T_(OA)` to reach point A. If the wave pulse of wavelength `lamda_(0)` is produced at point A (Pulse 2) without disturbing the position of M it takes time `T_(AO)` to reach point O. Which of the following options is/are correct?

A

The velocities of the two pulses (Pulse 1 and Pulse 2) are the same at the midpoint of rope

B

The velocity of any pulse along the rope is independent of its frequency and wavelength

C

The wavelength of Pulse 1 becomes longer when it reaches point A

D

The time `T_(AO)=T_(OA)`

Text Solution

Verified by Experts

The correct Answer is:
B, D
Velocity of the wave depends upon the trnsion in the rope and mass per unit length of the rope. `implies` velocity is dependent of frequency and wavelength
option (B) is correct
since tension at the point is same .therefore speed at the point will also be same.Option(A) is correct since the dirsction of the motion of pilses is opposite .,velocitis will be equal and opposite.with this point of view A will be incorrect since the velocities at position dependent only on tension at every point `(mu="constant") `therefore time taken for the wave the reach A from O and O from A will be same.
`T_(OA)=T_(AO)`
Option (D) is correct
`v=lambdav`
since v depends on source
`implies lambda prop v implies lambda prop sqrtT`
Tension decreases as we move from O to A ,therefore `lambda` becomes shorte. Option (C) is icorrect.
Promotional Banner

Similar Questions

Explore conceptually related problems

A thick uniform rope of length L is hanging from a rigid support. A transverse wave of wavelength lamda_(0) is set up in the middle of the rope. Te wavelength of the wave as it reaches the top most point is

A block of mass M = 2kg is suspended from a string AB of mass 6 kg as shown in figure. A transverse wave pulse of wavelength lambda_(0) is produced at point B. find its wavelength while reaching at point A.

Pulse And Waves

A uniform rope of elngth l and mass m hangs vertically from a rigid support. A block of mass m is attached to the free end of the rope. A transverse pulse of wavelength lambda is produced at the lower end of the rope. The wavelength of the pulse, when it reaches the top of the rope. is alambda . Find a^(2)

From a rigid support, a rope of mass M is hung vertically. To the free end of this rope, a wooden block of mass m is attached. At the lower end of rope, a transverse pulse of wavelength lambda is produced. What will be wavelength of pulse when it reaches the top of the rope ?

A pulse is a wave

A block of mass 2m is hanging at the lower and of a ropeof mass m and length the l, the other end being fixed to the ceililng. A pulse of wavelength lamda_(0) is produced at the lower of the rope. The speed of the pulseat the mid point of rope is:

A block of mass 2m is hanging at the lower and of a ropeof mass m and length the l, the other end being fixed to the ceililng. A pulse of wavelength lamda_(0) is produced at the lower of the rope. The wavelength of the pulse when it reaches the other end of the rope is :

A uniform rope of mass 6 kg and length 6 m hangs vertically from a rigid support. A block of mass 2 kg is attached to the free end of the rope. A transverse pulse of wavelength 0.075 m is produced at the lower end of the rope. The wavelength of the pulse when it reaches the top of the rope is K cm where K is