Brown dwarfs are heated primarily due to the compression of their interiors and are hot enough to glow. Some the the more massive brown dwarfs may also fuse deuterium, an isotope of hydrogen, for a short period after they form.
Yes; in fact Jupiter is basically a brown dwarf; aka a failed star and is therefore, able to produce its own heat.
Yes, but it can also make a black hole or a white dwarf.
"White dwarf" typically refers to a small hot star off the main sequence--after its collapse from a red giant. This is in contrast to a red dwarf which never got big enough to expand to a red giant. Pluto, in contrast, is a dwarf planet--far smaller than any star. It is essentially a big dirty snowball. So its albedo is high enough (it reflects enough light) to make it appear light gray in color.
no because the light that comes from the moon is from the sun. so it doesnt make its own heat or light. so no
The electrical term Watts is a measure of heat. It is calculated by multiplying amps times volts, but it is still a measure of heat. A 50w light bulb made for 12 volts produces about the same amount of heat as a 50w light bulb made for 120 volts.
Yes; in fact Jupiter is basically a brown dwarf; aka a failed star and is therefore, able to produce its own heat.
No. The energy of a white dwarf is simply residual heat.
You make brown / light brown by using red, green and yellow.
brown
Light brown.
Light brown.
brown... light.
Light energy can make heat energy
A lighter shade of brown.
White and brown.
A light bulb can make heat and light.
Mix your regular brown color with white.