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The electromagnetic wave with wavelengths ranging from 10^-3 to 10^-1 meters is in the microwave region of the spectrum. These waves have frequencies between 300 gigahertz and 3 terahertz.
Radio waves have the longest wavelength among the electromagnetic waves. They are used for communication and have wavelengths ranging from a few millimeters to hundreds of meters.
Radio waves have the longest wavelengths among the electromagnetic spectrum, ranging from a few centimeters to thousands of kilometers.
It Increases. Red light has a wave length of about, 620-750 nm. Blue light a wave length of about 450-475 nm
Radio waves have the longest wavelength in the electromagnetic spectrum, ranging from several meters to kilometers in length.
The electromagnetic wave with wavelengths ranging from 10^-3 to 10^-1 meters is in the microwave region of the spectrum. These waves have frequencies between 300 gigahertz and 3 terahertz.
Radio waves have the longest wavelength among the electromagnetic waves. They are used for communication and have wavelengths ranging from a few millimeters to hundreds of meters.
Radio waves have the longest wavelengths among the electromagnetic spectrum, ranging from a few centimeters to thousands of kilometers.
It Increases. Red light has a wave length of about, 620-750 nm. Blue light a wave length of about 450-475 nm
Radio waves have the longest wavelength in the electromagnetic spectrum, ranging from several meters to kilometers in length.
Wavelengths in the radio wave region of the electromagnetic spectrum have the lowest energy. These waves have long wavelengths and low frequencies, making them less energetic compared to other types of electromagnetic radiation like gamma rays or X-rays.
It Increases. Red light has a wave length of about, 620-750 nm. Blue light a wave length of about 450-475 nm
Radio waves have the longest wavelength among the electromagnetic spectrum, ranging from several meters to kilometers in length.
Human eye is sensitive to an approximate range of wave length of EM radiation from 380nm to 760nm. This portion of electromagnetic spectrum is identified as "visible light" These wavelengths roughly correspond to the colors violet, indigo, blue, green, yellow, orange, and red.
Gamma rays have wavelengths shorter than 10 picometres (10^-11 metres), corresponding to frequencies exceeding 10 exahertz (10^19 Hz).It is theorised that the Planck length may be the smallest meaningful unit of distance. A wave with that wavelength would have a frequency of approx 6.2*10^34Hz.
Different colors have different wavelengths and frequencies in the visible spectrum. As you move from red to violet, the wavelengths decrease and the frequencies increase. Red light has longer wavelengths and lower frequencies, while violet light has shorter wavelengths and higher frequencies. This relationship is described by the electromagnetic spectrum.
Radio waves typically have long wavelengths ranging from several millimeters to several meters. Their long wavelengths enable them to travel long distances and penetrate obstacles such as buildings, making them useful for communication over long distances.