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There are sometimes difficulties in analyzing "every" wavelength of light. Here on Earth, our atmosphere filters out many broad bands of electromagnetic energy, and even for space-based telescopes, the proper instruments need to be designed and programmed to receive each band. These are not uniformly sensitive across bands.
What else can I help you with?
What is long wavelength radiation given out by stars?
Long wavelength radiation given out by stars is typically in the form of infrared radiation. This type of radiation has longer wavelengths than visible light and is emitted by stars as a product of their high temperatures. It is important for studying the properties and evolution of stars.
How do you find the wavelength of gamma radiation?
You can find the wavelength of gamma radiation using the equation: wavelength (λ) = speed of light (c) / frequency (ν). The frequency of gamma radiation is typically given in hertz (Hz).
Which has the longest wavelength 1ultraviolet radiation 2gamma radiation 3 visible radiation 4 infrared radiation?
The sequence of the listing in the question is correct. From longest to shortest wavelength, these four categories of EM radiation do in fact list in the order: 1). infrared 2). visible 3). ultraviolet 4). X-rays
How are the wavelength and energy of electromagnetic radiation related?
The energy of one photon is given by its frequency X planck's constant Its frequency is given by the speed of light divided by the wavelength.
Recall that good absorbers are good emitters?
Yes, according to Kirchhoff's law of thermal radiation, good absorbers are good emitters of radiation at a given wavelength. This means that materials that efficiently absorb incoming radiation also emit radiation effectively at the same wavelength.
What is a perfect absorber or emitter of radiation called?
A perfect absorber or emitter of radiation is called a blackbody. It absorbs all incident radiation regardless of wavelength or direction, and emits radiation at the maximum possible level for a given temperature.
What is the wavelength of electromagnetic radiation if its frequency is 3.2 times 10 to the -2 Hz?
The wavelength of electromagnetic radiation can be calculated using the formula: wavelength = speed of light / frequency. Given that the speed of light is approximately 3.00 x 10^8 m/s, the wavelength for a frequency of 3.2 x 10^-2 Hz would be approximately 9.38 x 10^9 meters.
What is the frequency of radiation whose wavelength is 1.73nm?
The frequency of radiation can be calculated using the formula: frequency = speed of light / wavelength. Given the speed of light is about 3.00 x 10^8 m/s, you can convert the wavelength from nm to meters (1.73 nm = 1.73 x 10^-9 m) and plug in the values to find the frequency.
What is the frequency of radiation whose wavelength is 10?
You need specify the units associated with the number 10.In any event, a very simple relationship exists between the wavelength and the frequency for all forms of electromagnetic radiation - the product of the two is equal to the speed of light. Therefore, the frequency you want to know can be determined by dividing the speed of light by the wavelength. Just be sure that you are consistent with the units
If the frequency of an electromagnetic wave decreases what will the wavelength do?
It will become longer, and it will carry less energy, its also likely, that if the change or loss in frequency is enough, the radiation will become a different type of electromagnetic radiation in the spectrum like gamma to x-rays or visible light to infrared and so on.
What is the microwave formula for calculating the wavelength of a given frequency?
The microwave formula for calculating the wavelength of a given frequency is: Wavelength () Speed of Light (c) / Frequency (f).
What is the frequency of heat radiation?
Heat radiation, also known as thermal radiation, is emitted at various frequencies depending on the temperature of the object. As temperature increases, the frequency of the radiation also increases. The peak frequency of heat radiation is given by Wien's displacement law: f_peak = c / λ_peak, where f_peak is the peak frequency, c is the speed of light, and λ_peak is the peak wavelength.
