Stopping at the Near-infrared [at one end] and the Ultra-violet [at the other] ends of the Electromagnetic Spectrum, the range of frequencies Humans can see range from the deep-Red to the deep-Violet. Ask if you need the actual frequencies involved.
5/9(98.6-32)=37ºC
273+37=310 ºK
2879800nm*k/310K=9289.677 nm
If you mean by EM radiation, this will be in the infrared region, we are not hot enough to produce visible light!
The shortest waves carry the most energy. Ultraviolet, X-rays and the like.
Ultraviolet rays
Plants and some algae get their energy from the Sun. Most other living beings (including us humans) get their energy from plants. Energy is stored as chemical energy, which we use. Plants use chemical energy, too, as energy storage.Plants and some algae get their energy from the Sun. Most other living beings (including us humans) get their energy from plants. Energy is stored as chemical energy, which we use. Plants use chemical energy, too, as energy storage.Plants and some algae get their energy from the Sun. Most other living beings (including us humans) get their energy from plants. Energy is stored as chemical energy, which we use. Plants use chemical energy, too, as energy storage.Plants and some algae get their energy from the Sun. Most other living beings (including us humans) get their energy from plants. Energy is stored as chemical energy, which we use. Plants use chemical energy, too, as energy storage.
Fat provides the longest term energy storage. This is because it is the most energy dense molecule in the body.
Only this much energy is transferred to each level because plants take up 90% of the sun's energy because they are obviously the most populated, and primary consumers such as cows aren't as populated as plants so they only get 10% of the remaining energy and so on as for examples of humans, and then lions. Lions 0.1% energy Humans 1% energy Cows 10% energy Plants 100% energy Hope this helped! :)
Red and Blue light is absorbed by chlorophyll, the pigment that transforms light energy into chemical energy in photosynthesis, so that the light that is reflected off leaves appears green.
Animals can produce the things we need and plants help us stay healthy. Like predators, we eat meat from animals. Most people are omnivorous, so that's why we get our food from plants and animals. -lu
The Wienβs law for maximum intensity is, Here, is the wavelength of maximum intensity and T is the temperature of human body. Rearrange the above expression for . Substitute for T to find . So the maximum energy is radiated at 9355.83nmK. Humans emit infrared off radiation which is electromagnetic radiation with a frequency lower than visible light.
80.556nm λmax = 2.9 x 10^6 / T Where λmax is the max wavelength and T is in kelvin
For a thermal radiation source, the peak of the blackbody radiation curve is at a photon energy 2.8 times the temperature in electron-volts. The temperature in electron-volts is 1/11,600 times the temperature in Kelvin. Use E = hv to convert from the photon energy (E) to photon frequency, using Plank's constant h. Use v = c/(lambda) to convert from the photon frequency to the wavelength. The result: these hot plasmas radiate X-rays, and the peak wavelength is about 50 Angstroms, i.e. 5 nm.
No. It radiates most energy back as infarred radiation.
Gamma rays have the most energy per photon.
Gamma rays have the most energy per photon.
Chlorophyll a absorbs the most light (energy) in the blue- violet spectrum
The shortest wavelengths have the most energy because it has the highest frequency. A high energy light will have a shorter wavelength than a low energy light. If the wavelength goes down, then the frequency goes up. When calculating energy in the equation, E=hv, frequency (v) is the variable, not the wavelength. So in the equation, if you wanted a more energy (E), you would have the frequency be large. For the frequency to be big, then the wavelength has to be low. So no UV light doesn't have the most energy Gamma rays do though.
ultraviolet ---novanet :)
light energy
light energy
The most energy rich colors of light are those with the shortest wavelength - violet or blue