A stationary sound wave has a frequency of 165 Hz. If the speed of sound in air is 330 m/s , then the distance between a node and the adjacent antinode is

In stationary wave, the distance between a node and its adjacent antinode is ……….

A car is moving with a velocity of 5 m//s towards huge wall. The driver sounds a horn of frequency 165 Hz . If the speed of sound in air is 335 m//s , the number of beats heard per second by the driver is

In a stationary wave of wavelength 0.4 m, the distance between node and adjacent antinode is ________.

An open pipe of length 33 cm resonates with frequency of 100 Hz . If the speed of sound is 330 m/s , then this frequency is

Two sound waves each of frequency 500Hz are travelling along the same line in opposite direction . If the speed of sound in air is 350 m/s. find the distance between the consecutive antinodes of the resulting stationary wave.

A stationary police car sounds a siren with a frequency of 990 Hz. If the speed of sound is 330 m/s, an observer, driving towards the car with a speed of 33 m/s, will hear a frequency of

An open pipe of length 33cm resonates with frequency of 1000Hz. If the speed of sound is 330m//s , then this frequency is -

What is the distance between a node and an adjoining antinode in a stationary wave?

A tube closed at one end has a vibrating diaphragm at the other end , which may be assumed to be a displacement node . It is found that when the frequency of the diaphragm is 2000 Hz , a stationary wave pattern is set up in which the distance between adjacent nodes is 8 cm . When the frequency is gradually reduced , the stationary wave pattern reappears at a frequency of 1600 Hz . Calculate i. the speed of sound in air , ii. the distance between adjacent nodes at a frequency of 1600 Hz , iii. the distance between the diaphragm and the closed end , iv. the next lower frequencies at which stationary wave patterns will be obtained.