Question

What is the wavelenght of a 1-kilohertz(kHz) sound traveling in water

Answer 1

The wavelength of a 1 kHz sound wave traveling in water is found by dividing the speed of sound in water (1482 m/s) by the frequency (1000 Hz), resulting in a wavelength of 1.482 meters.

Step-by-step explanation:

To calculate the wavelength of a sound wave traveling in water with a frequency of 1 kilohertz (kHz), you need to know the speed of sound in water. The speed of sound in water is typically around 1482 meters per second (m/s). The wavelength λ (lambda) of a wave is related to its speed v and frequency f by the equation λ = v / f.

Given the frequency f of 1 kHz, which is equivalent to 1000 Hz, we can use the equation to find the wavelength:

λ = v / f = 1482 m/s / 1000 Hz = 1.482 meters

Therefore, the wavelength of a 1 kHz sound wave traveling in water is 1.482 meters.

Answer 2

Waves carry energy from one place to another. For water waves and sound waves the unit hertz is usually good enough but radio and TV waves have a high frequency that kilohertz (KHZ)1 KHZ= 1,000 HZ, 1 MHZ=1,000,000 HZ