A photon with energy 3.0 x 10-19 J
A photon with wavelength 525 nm
A photon with frequency 7.6 x 1014 Hz
A photon with frequency 2 x 1015 Hz
From energy in photons
Well, you might just put it in a separate category, and call it "light energy". But it is probably better to place it in the broader category of "electromagnetic waves".
Put enough electrical energy into it and it surely will. As objects heat they emit increasing amounts of Infrared; at a critical temperature atoms will start to produce a first order harmonic - i.e red light. With increasing energy, the statistical population of atoms emitting red light will increase until the object glows bright red. Push in even more energy and you add a second order harmonic one musical fifth above red light - this light is green. Add to the red light and you now have orange. With increasing energy, the statistical population of atoms emitting both red and green light will then increase until the object is bright yellow. Push in yet more energy and a third order harmonic is added; this is one musical octave above red; this light is blue. Eventually, you will be pushing in sufficient energy that the object glows brilliant white. That's how a light bulb does it. However, a heater coil has been designed so that under normal operating conditions it will only produce Infrared
You can't get ahead (1st law - conservation of energy - you can't get more energy out than you put in) You can't even break even (2nd law - 100% efficiency is not possible - some energy will always be lost as heat to the surroundings, thus increasing the overall entropy of the universe) You can't get out of the game (no real process is reversible)
Evaporation of water Formation of clouds Precipitation of water collection of water Apex :)
From energy in photons
Energy is transferred from the photons in the light to the molecules of the earth material.
Sr Mg B N Ne Apex, Draikman
A quantum of energy is the most basic unit of energy. According to the quantum theory put forward by German physicist Max Planck in 1900, energy exists as discrete particles called quanta. The energy of a quantum E is given by: E = hf where h is the Planck constant (h = 6.6 x 10-34) and f is the frequency of the radiation.
3.25,3.025,3.205,3.502.
Well, you might just put it in a separate category, and call it "light energy". But it is probably better to place it in the broader category of "electromagnetic waves".
energy and intelligence
Solar panels, photovoltaic cells absorb the photons energy put off by the sun to release electrons this in turn creates electricity ready to be harnessed.
i have that same question on my homework on a lab we are doing!
Gravity deforms spacetime, and photons follow the curves in spacetime that are put there by objects with large mass (and, therefore, large gravity).
Yes, this is correct. In order for the object to move, it has to be given energy by force.
They all have the same gravitational potential energies.