A wave is moving in air with a velocity of `340m//s`. Calculate the wavelength if its frequency is 512 vibrations/sec.

A mechanical wave has a velocity of 330 m/s. calculate its frequency if its wavelength is 130m.

The speed of a wave is 340 ms^(-1) . What is the wavelength of the wave if its frequency is 500 Hz?

Establish the relationship between speed of sound, its wavelenth and frequency. If velocity of sound in air is 340 m//s , calculate : (i) wavelength when frequency is 256 Hz . (ii) frequency when wavelength is 0.85 m .

(a) Define the terms frequency wavelength and velocity of a sound wave. What is the relation between them? (b) A body vibrating with a time-period of (1)/(26)s produces a sound wave which travels in air with a velocity of 350 m//s . Calculate the wavelength.

The velocity of sound in air is 340 m//s . Compute : (i) its wavelength when the frequency is 250 hz . (ii) its frequency when the wavelength is 85 cm .

The frequency of a mechanical wave is 256 Hz. Calculate its wavelength when its speed is 512m/s.

A car is moving along X-axis with a velocity v=20m//s . It sounds a whistle of frequency 660 Hz. If the speed of sound is 340m//s . The apparent frequency heard by the observer O (shown in figure) is:

The adjacent figure shows a displacement vs distance graph of a wave. If the velocity of the wave is 14 m s^(-1) calculate its (i) wavelength, (ii) frequency and (iii) amplitude of the wave

The wavelength is 120 cm when the source is stationary. If the source is moving with relative velocity of 60 m / sec towards the observer, then the wavelength of the sound wave reaching to the observer will be (velocity of sound = 330 m / s )