Planck's Constant is the product of frequency and wavelength
Radiation treatment, or radiation therapy is a form of cancer treatment. It uses high doses of intense energy to kill the cancer cells.
One of the properties of electromagnetic radiation is that when viewed according to the 'particle' model, the energy carried by each particle ("photon") is proportional to its frequency. So, as you go up the spectrum in frequency (downward in wavelength), each photon carries more energy. This is the best intuitive explanation for why a beam of radio or red light shining on a metal surface can't dislodge electrons from the metal no matter how intense the beam is, but a beam of ultraviolet light or X-ray can do it no matter how dim the beam is.
radiation & gravity
the peak times of radiation are 10 am and 3pm
It is not meaningful to talk about "amplitude of the visible light spectrum". One might think that more intense light would mean greater amplitude of the light wave, but it just means more photons. "Visible light" is made up of photons. A single photon has a certain quantifiable energy, and that energy is discussed in terms of frequency or wavelength. A photon with low frequency (towards the red end of the visible light spectrum, for instance) is less energetic than a photon with high frequency (towards the blue end and beyond). For all intents and purposes, the amplitude of a photon wave-packet could be said to be of "unit amplitude", the amplitude of light.
Yes, radiation of any frequency can be harmful when it is intense enough.
Ultra violet radiation has more energy (E=hf) than visible radiation.
Cesium 133 is the stable isotope of the family of cesium isotopes and thus has no nuclear radiation breaking out of its nucleus. The only radiation from cesium 133 would be an emission spectra data in the blue visible light zone with a few less intense lines across the visible spectrum.
Solar radiation is most intense at noon.
The Sun is not red. Its radiation is most intense in the yellow-green part of the spectrum, which is why it is called a "yellow dwarf" star.
yes, the sun emits all types of the electromagnetic spectrum including infra red
Visible light is part of the electromagnetic spectrum, in frequency between infra-red and ultra-violet. Light is therefore radiation, though its energy is not harmful to us-we have evolved to be able to use it without harmful effects, provide it is not too intense as it can be with lasers for instance, or looking directly at the sun. Ultra-violet on the other hand is harmful, this is what causes sunburn.
The further you get away form the sun the less intense its radiation gets.
The further you get away form the sun the less intense its radiation gets.
The sun generates such intense energy via radiation pressure. This involves the placement of hydrogen into helium in the sun's core with the process of nuclear fusion.
Frequency = the rate of repetition of something. Magnitude = how intense or severe the act is.
The answer will depend on what they are.