How to Calculate Frequencies from Wavelengths

Oscillating movements can be represented by waves. Light, sound, and even the recoiling of a spring can all exhibit the properties of a wave, which include wavelength and frequency. The understanding of waves has become a crucial foundation for modern innovation, forming the core of the technology behind radios, microwaves, X-rays, and even audio production equipment and software. As such, there are many advantages to understanding the relationships between the different characteristics of a wave. Knowing these basics concepts can enable you, for example, to determine an unknown value, such as frequency, from a given measurements of wavelength and speed.

• 1

  Determine the wavelength of the wave. Wavelength and frequency are inversely proportional, with wavelength increasing as frequency decreases and vice versa. Knowing one is the first step for finding the value of the other.

• 2

  Establish the speed at which the wave is traveling. Electromagnetic waves, which include both non-visible (such as radio waves, microwaves, and ultraviolet and infrared light) and visible light, travel at a fixed, constant speed. This is called the speed of light, often represented by the letter "c"; it is approximately 3*10^8 meters per second.

• 3

  Determine the speed for your specific scenario if you are working with another type of wave that does not maintain a constant speed in all circumstances. Some of these types of waves, such as sound waves, can have different speeds based on differing atmospheric conditions or the medium through which they are traveling.

• 4

  Divide the rate of travel of the wave by its wavelength. With electromagnetic waves, for example, you would simply divide the speed of light by the specific wavelength. This answer is the frequency of the wave and should be represented in appropriate units such as Hertz (Hz), a measurement equivalent to 1/seconds.