Yes
Different electromagnetic wavelengths/frequencies.
The gamma particle's symbol is the lowercase Greek gamma, the velar, which looks like a lower case western v, but the base has a narrow loop, and the left top has a curved serif. In print, it looks like a Y, shifted down as if it were a lower case letter with a descender. We can't represent it here on Answers.com, but the Related Link below will take you to WikiPedia where you can see a representation of it. The charge of a gamma particle is that of the photon, which is zero.
The visible portion of electromagnetic spectrum is called the visible light and is the electromagnetic wave with the wavelength between 380 - 740 nm.
Infrared Radiation being emited from the Earth Surface, Hope were talking about the same Question of Global Warming
The carbonaceous meteorites represent the mantle of the Earth. Pallesite meteorites are composed of iron and olivine which represents the transition between the core and the mantle.
Well, it's hard not to say "It's just the way it is", because it follows a law of Physics, but I'll try to explain the best I can.Up the electromagnetic spectrum is this order. Radio, Microwave, Infrared, red, orange, yellow, green, blue, indigo, violet, ultraviolet, X-ray, and Gamma. The higher up the radiation, the smaller the wavelength (the length of the wave, intuitively), and the higher the frequency (the amount of "waving" done in a second).Since frequency (aforementioned) is directly proportional to Energy with the equation E=hf (or instead of "f", "v" as wikipedia loves to call it), it makes sense that the higher the frequency, the higher the energy per photon. Right?UV is definitely above infrared in this case, and has been repeatedly proven through experiments to be on a higher tier than infrared radiation.
Well, it's hard not to say "It's just the way it is", because it follows a law of Physics, but I'll try to explain the best I can.Up the electromagnetic spectrum is this order. Radio, Microwave, Infrared, red, orange, yellow, green, blue, indigo, violet, ultraviolet, X-ray, and Gamma. The higher up the radiation, the smaller the wavelength (the length of the wave, intuitively), and the higher the frequency (the amount of "waving" done in a second).Since frequency (aforementioned) is directly proportional to Energy with the equation E=hf (or instead of "f", "v" as wikipedia loves to call it), it makes sense that the higher the frequency, the higher the energy per photon. Right?UV is definitely above infrared in this case, and has been repeatedly proven through experiments to be on a higher tier than infrared radiation.
That depends on what kind of wave you are talking about. In the case of electromagnetic waves, the smaller wavelengths indeed represent more energetic radiation.
Yes, first is a transition word.Transitional words and phrases represent one way of gaining coherence.
transition
Group nine to eighteen (B-Families) of 'd' and 'f' blocks of periodic table are transition elements.
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Different electromagnetic wavelengths/frequencies.
A transition metal.
The (loosely defined) transition metals are the 40 chemical elements 21 to 30, 39 to 48, 71 to 80, and 103 to 112. The name transition comes from their position in the periodic table of elements.In each of the four periods in which they occur, these elements represent the successive addition of electrons to the datomic orbitals of the atoms. In this way, the transition metals represent the transition between group 2 elementsand group 13 elements.
Poynting vectors represent the directional energy flux density of electromagnetic fields. The term describes the direction and magnitude of how energy flows in electromagnetic waves.
The electromagnetic wave is "modulated" (changed) to represent the signal. For example, in AM (amplitude modulation), the strength (amplitude) of the wave is increased or decreased, according to the signal.