Statement-1 : The fundamental frequency of an organ pipe increases as the temperature increases
Statement-1 : If transverse waves are produced in a very long string fixed at one end. Near the free end only progressive wave is observed, in parctice
Statement-2 : As the temperature increases, the velocity of sound increases more rapidly than length of the pipe.

Statement-1 : If transverse waves are produced in a very long string fixed at one end. Near the free end only progressive wave is observed, in parctice Statement-2 : Energy of reflected wave does not reach the free end.

Assertion:- Transvers waves are produced in a very long string fixed at one end. Near the free end only progressive wave is observed. Reason:- Energy of reflected wave does does not reach the free end.

Assertion : The fundamental frequency of an open organ pipe increases as the temperature increases, the velocity of sound increases more rapidly than length of the pipe.

Assertion: The fundamental frequency of an open organ pipe increases as the temperature is increased. Reason: As the temperature increases, the velocity of sound increases more rapidly than length of the pipe.

Statement-1 : When two vibrating tuning forks have f_(1) = 300 Hz and f_(2) = 350 Hz and held close to each other , beats cannot be heard Statement-1 : If transverse waves are produced in a very long string fixed at one end. Near the free end only progressive wave is observed, in parctice Statement-2 : The principle of superposition is valid only when f_(1) - f_(2) lt 10 Hz

If the temperature increases, then what happens to the frequency of the sound produced by the organ pipe ?

The fundamental frequency of a stretched string fixed at both the ends is 50 Hz. If the velocity fo transverse wave created in string is 10 m s^(-1) , find its length .

The fundamental frequency of an open end pipe is 300 Hz, when air is at a temperature of 27^@C . If the temperature increases to 29^@C , then the frequency becomes

Statement-1: Waves on a string are always transverse in nature. ltBrgt Statement-2: The velocity of a transverse wave propagating along a string is independent of the frequency of the propagating wave.