would be useful for getting a suntan, since this wavelength falls in the category of UV rays.
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∙ 14y agoAlways.
A roller coaster
In Chemistry it is a particle of electromagnetic radiation wth no mass that carries a quantum of energy. HOPE THIS HELPS:>photon is another name for concentrated energy, usually in quantizaed units.A photon is a particle of light. For more details, read the Wikipedia article on "photon".meant*A photon is like a particle of light. The minimum divisible quantity of light.
Photon Energy E=hf = hc/w thus wavelength w= hc/E or the wavelength is hc divided by the energy of the photon or w= .2 e-24 Joule meter/Photon Energy.
to suck a guys D!ck
The photon from Part C can be useful for various applications including communication technology (e.g., fiber optics), medical imaging (e.g., MRI), and solar energy (e.g., photovoltaic cells). Additionally, photons are integral to advancements in quantum computing and cryptography.
Plants can use artificial light sources such as fluorescent or LED lights to undergo photosynthesis, the process by which they convert light energy into chemical energy. The light provides the energy needed to drive the photosynthetic reactions that convert carbon dioxide and water into oxygen and glucose, which plants use as food. Plants can thrive under artificial light as long as the light spectrum and intensity meet their requirements for optimal growth.
To determine if a resource might be useful, you will need to evaluate the information in the resource and decide if it is valid, useful, accurate, reliable, and relevant. You should also check the date of publication.
If you mean a neutral particle, that might be:* The neutron * The graviton * The photon ... among others.
A packet of light energy is called a photon.
Gases are useful for lots of things. you might need to specify on what gas it is?
The energy of a photon is inversely propotional to its wavelength. The wavelength of a blue photon is less than that of a red photon. That makes the blue photon more energetic. Or how about this? The energy of a photon is directly proportional to its frequency. The frequency of a blue photon is greater than that of a red photon. That makes the blue photon more energetic. The wavelength of a photon is inversely proportional to its frequency. The the longer the wavelength, the lower the frequency. The shorter the wavelength, the higher the frequency.
because we did it
Knowing the exact location of a place can help with navigation, communication, emergency response, and planning. It can also assist in tracking assets, monitoring environmental changes, and improving logistics.
A preposition that comes after useful might include for, except, during, and inside.
Photon flux can be calculated using the formula: photon flux = v * E, where v is the frequency of the photons and E is the energy of each photon. By multiplying the frequency of the photons by the energy of each photon, you can determine the photon flux.
The energy of a photon is given by E = hf, where h is the Planck's constant (6.626x10^-34 J*s) and f is the frequency of the photon. Plugging in the values, the energy of a microwave photon with a frequency of 1.12x10^12 Hz is approximately 7.41x10^-22 J.