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What else can I help you with?
Where on the spectrum is a radio wave?
A radio wave is the longest form of electromagnetic radiation, so it is just before microwaves, with nothing after it.
Which color has the longest wavelenght?
Red.
What is the wavelenght of a wave related to?
distance
Which type of electromagnetic wave has a wavelenght longer than that of microwaves?
Radio waves, microwaves, infra red, visible, ultraviolet, X-ray and gamma rays are in the order of having more frequency or less wavelength Visible is further expanded as ROYGBIV
Which wavelength has the longest wavelenght?
Ultra violet
What are wavelenghts?
wavelenght is the distance between the 2 peaks in sound waves and can be calculated by Wavelenght is = wave speed/ frequency or wave speed __________ frequency
Which form of radiation from the sun has the longest wavelenght?
The answer is scattering!
What has the longest wave length a Gamma wave microwave visible light or x-ray?
From that list, microwaves have the longest wavelength. Those four items would be arranged by wavelength like this: - Gamma ray (shortest) - X-ray - Visible light - Microwave (longest)
What is the longest to shortest wave length?
The longest wavelength is radio waves, followed by microwaves, infrared, visible light, ultraviolet, X-rays, and gamma rays, which have the shortest wavelength.
What type of electromagnetic radiation has the longest wavelenght?
Radio waves.
Which colour in the visible pectrum has the longest wavelenght?
Red color in the visible spectrum has longest wavelength.
Which wave would have more energy a small wave or a large wave?
I suppose you're talking about small wavelenght or large wavelength. In this case, the answer is that a wave with lower wavelenght has more energy than a wave with higher wavelenght.You have to consider that the energy associated to an electromagnetic wave is, according to de Broglie:E = hfwhere h is the Planck constant (which is, more or less, h = 6.626·10-34 Js) and f is the frequency of the wave. The relationship between frequency and wavelenght is given byf = c/lambdawhere c is the speed of light and lambda the wavelenght. So finally you haveE = hc/lambdaAccording to this equation, the higher the wavelenght, the lower the energy.
