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When electromagnetic radiation is arranged to wavelength and frequency it forms the?
Wiki User
∙ 9y ago
When electromagnetic radiation is arranged to wavelength and frequency it forms the electromagnetic spectrum.
Wiki User
∙ 9y ago
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The various types of electromagnetic radiation are distinguished from each other by their?
Electromagnetic waves are classified according to their wavelength and frequency and this classification is called electromagnetic spectrum.
What determines the radiation that an electromagnetic wave emits?
You're probably thinking of frequency and wavelength. If that's true, then you onlyneed one or the other. They're tightly connected, so if you know one of them, thenyou can always calculate the other one.
Which electromagnetic waves carry energy arranged by wavelength?
the answer is Spectrum
In what are electromagnetic waves arranged in order accoring to their wave lengths?
Here is the electromagnetic spectrum arranged according to wavelength (with the lowest wavelength first): ~Radio waves ~Microwaves ~Infra - red ~Visible light ~Ultra violet ~X - rays ~Gamma rays ~High - energy gamma rays (AKA: cosmic rays, as virtually all electromagnetic radiation at this energy level comes from space.) If this answer was helpful please click recommend contributor :)
What is the relationship between an EM wave wavelength and its location on the EM spectrum?
The EM spectrum is a chart of electromagnetic radiation, arranged by wave length. The chart may be arranged in ascending or descending order.Related Information:The charts could begin with radio waves, having the longest wavelength, and end with gamma rays, having the shortest wavelength or the order could be reversed.
What qualities describe how electromagnetic is arranged in the spectrum?
They are arranged by their wavelength and their frequency.
The various types of electromagnetic radiation are distinguished from each other by their?
Electromagnetic waves are classified according to their wavelength and frequency and this classification is called electromagnetic spectrum.
What determines the radiation that an electromagnetic wave emits?
You're probably thinking of frequency and wavelength. If that's true, then you onlyneed one or the other. They're tightly connected, so if you know one of them, thenyou can always calculate the other one.
Which electromagnetic waves carry energy arranged by wavelength?
the answer is Spectrum
Why is the study of electromagnetic radiation important to your understanding of how electrons are arranged in the atom?
Electromagnetic Radiation is electron radiation as pulsed by the Sun at all measured frequencies
In what are electromagnetic waves arranged in order accoring to their wave lengths?
Here is the electromagnetic spectrum arranged according to wavelength (with the lowest wavelength first): ~Radio waves ~Microwaves ~Infra - red ~Visible light ~Ultra violet ~X - rays ~Gamma rays ~High - energy gamma rays (AKA: cosmic rays, as virtually all electromagnetic radiation at this energy level comes from space.) If this answer was helpful please click recommend contributor :)
What is the relationship between an EM waves wavelength and it's location on the EM spectrum?
The EM spectrum is a chart of electromagnetic radiation, arranged by wave length. The chart may be arranged in ascending or descending order.Related Information:The charts could begin with radio waves, having the longest wavelength, and end with gamma rays, having the shortest wavelength or the order could be reversed.
What is the relationship between an EM waves wavelength and its location on the EM spectrum?
The EM spectrum is a chart of electromagnetic radiation, arranged by wave length. The chart may be arranged in ascending or descending order.Related Information:The charts could begin with radio waves, having the longest wavelength, and end with gamma rays, having the shortest wavelength or the order could be reversed.
What is the relationship between an EM wave wavelength and its location on the EM spectrum?
The EM spectrum is a chart of electromagnetic radiation, arranged by wave length. The chart may be arranged in ascending or descending order.Related Information:The charts could begin with radio waves, having the longest wavelength, and end with gamma rays, having the shortest wavelength or the order could be reversed.
In which are the forms of electromagnetic energy arranged in order from longest to shortest wavelength?
The colors of visible light
What is the relationship between and EM wave's wavelength and its location on the EM spectrum?
The EM spectrum is a chart of electromagnetic radiation, arranged by wave length. The chart may be arranged in ascending or descending order.Related Information:The charts could begin with radio waves, having the longest wavelength, and end with gamma rays, having the shortest wavelength or the order could be reversed.
How is the electromagnetic spectrum arranged?
Electromagnetic (EM) waves are "arranged" according to the source of the EM radiation. The source determines orientation of the wave. Electromagnetic waves are actually composed of two waves, each of which is perpendicular to the other one. One is the electric component, and the other is the magnetic component. Depending on the source, the wave will have an "arrangement" or orientation called polarity. Let's take a quick look.Picture a sine wave. It's moving across in front of you from left to right. It is "straight up and down" and you can see it in "profile" as it passes. Now picture another wave moving with that first one. It is lying flat, and you can't see it because you're directly to the side. You have to stand on tip toe to "look down" on that second sine wave just a bit to see it. The two waves have the same starting, midpoint and endpoint on every cycle. They are sharing the same path, but travel perpendicular to each other. This sets up a given polarity for this wave. What happens if you "roll" the wave toward you by 90o?In this second instance, you'd have a wave that was polarized 90o from what the first one was. They are "arranged" at 90o to each other. Polarity is an important concept, and these ideas are what it is based on.A link to the Wikipedia article on electromagnetic radiation and its properties is provided. It has a drawing that will help solidify the concepts.Hi
