Its wavelengths are shorter than any other color in the visible light spectrum,
emitting higher energy levels than any other color your eyes can perceive.
Not exact matches
Magnetic fields make the
higher energy levels split into two new
levels, so electrons dive from two different platforms and
emit different particles of light.
Another disadvantage is the
high levels of radiant heat
energy produced by
high - pressure sodium lamps; up to 75 % of the
energy from HPS lamps that is not converted to light is
emitted as radiant heat
energy, causing the surface of the lamps to reach temperatures as
high as 450 °C.
Niels Bohr had shown in 1913 that an atom's electrons occupy different
energy levels, and that falling from a
high energy level to a lower one
emits radiation.
When an electron goes from the
higher energy level to the lower it
emits radiation of a precise frequency.
This dye
emits a phosphorescent glow when exposed to a monochromatic LED light source, which excites individual electrons and raises them to a
higher energy level.
The larger the
energy difference between the two
levels, the
higher the frequency of light
emitted.
What I meant was that Planck radiation increases with body or amb ient temperature, but
higher temperature, per the Boltzmann distribution, makes it more probable that rotation, vibration, and / or electronic
levels will be excited, and therefore less likely to
emit relaxation
energy, though as you point out this may not be exactly what happens physically — emission radiation is more flat than anything with increasing temperatures.
Until the surface warms to a
level that
emits radiation at a rate that is balanced with the
higher level of
energy capture there will continue to be «net
energy capture».
It isn't interested in forming any molecules and so requires
high energy uV to excite it to
higher levels before it is capable of absorbing and
emitting in the visible and infrared.
Last year, humanity
emitted the
highest level of greenhouse gas emissions in history — even after factoring in the expansion of renewable
energy.
As we
emit more and more carbon dioxide into the atmosphere, the amount of greenhouse gases in the atmosphere steadily increases, constantly pushing the radiating
level (where the atmosphere loses
energy into space)
higher and
higher.
Well they would only have importance to you because you have a flawed view of how these gases are excited into the
higher energy levels in order to
emit.