The speed of sound in air is `330 m//s`. and that in glass is `4500 m//s`. What is the ratio of the wavelength of sound of given frequency in the two media?

The speed of sound in air is 330 m//s and that in glass is 4500 m//s . What is the ratio of the wavelength of sound of given frequency in the two mediums?

The speed of the sound in air at 0 ^@C is 332m//s . Find the speed of sound in air at 10^@C .

The velocity of sound in air at 20^@ C and 1 atm pressure in 344.2 m//s . At 40^@C and 2 atm pressure, the velocity of sound in air is

A source of sound of frequency 750 Hz is placed inside water. The speed of sound in water is 1500 m//s and in air is 340 m//s . The frequency of sound recorded by an observer who is standing in air is

Speed of sound is air is 340 m/s. The length of air column is 34 cm. The frequency of 5^(th) overtone of pipe closed at one end is

The frequency of a whistle of the engine of an express train moving with 20 m/s appears as 500 Hz to a car driver moving with the velocity 15 m/s. The velocity of the sound in air is 335 m/s. If the train and car are moving in opposite directions towards each other, then the frequency of the whistle is

The speed of sound in air at 0^@C is 332 m//s . If it increases at the rate of 0.6 m//s per degree, what will be the temperature when the velocity has increased to 344 m//s ?

The speed of sound in air at 0^@C is 332 m//s . If it increases at the rate of 0.m//s per degree, what will be the temperature when the velocity has increased to 344m//s ?

A source of sound of frequency 512 Hz is placed inside water. The speed of sound in water is 1482 m s^(-1) and in air it is 320 m s^(-1) . The frequency of sound recorded by an observer who is standing in air is

The speed of sound in air at 0^@ C is 332 m/s, If it increases at the rate of 0.6 m/s per degree, what will be the temperature when the velocity has increased to 344 m/s?