A sound wave starting from source `S`, follows two paths `SEFD and SEABFD`. If `AB = 1 , AE = BF = 0.6 l ` and wavelength of wave is `lambda = 11 m`. If maximum sound is heard at `D` , then maximum value of length `l` is

A sound wave starting from source S , follows two paths SEFD and SEABFD . If AB = 1 , AE = BF = 0.6 l and wavelength of wave is lambda = 6 m . If maximum sound is heard at D , then maximum value of length l is

A sound wave starting from source S , follows two paths AOB and ACB to reach the detector D . If ABC is an equilateral traingle , of side l and there is silence at point D , the maximum wavelength (lambda) of sound wave must be

A sound wave starting from source S , follows two paths AOB and ACB to reach the detector D . If ABC is an equilateral traingle , of side l and there is silence at point D , the maximum wavelength (lambda) of sound wave must be

Sound wave from a source A, follows two paths AOB and APQB in a tube as shown in figure. For silence at B, possible wavelength of sound will be

Two sound waves of wavelength 1 m and 1.01 m in a gas produce 10 beats in 3 s. The velocity of sound in the gas is

Two sound waves of wavelength 1 m and 1.01 m in a gas produce 10 beats in 3 s. The velocity of sound in the gas is

Two sound waves emerging from a source reach a point simultaneously along two paths. When the path difference is 12 cm or 36 cm , then there is a silence at that point. If the speed of sound in air be 330 m//s , then calculate maximum possible frequency of the source.

Two sound waves emerging from a source reach a point simultaneously along two paths. When the path difference is 12 cm or 36 cm , then there is a silence at that point. If the speed of sound in air be 330 m//s , then calculate maximum possible frequency of the source.

In the case of sound waves, wind a blowing from source to reciver with speed U_(W) . Both source and receiver are stationary.If lambda_(0) is the original wavelength with no wind and V is speed of sound in air then wavelength as received is given by :