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Its electrons are excited to a higher energy state in the flame, and then they immediately release that energy, which is visible as yellow light.
During combustion, energy is released. Some of this energy takes the form of light, making the flame visible.
If the test agent have free ions the ionization of the flame will be significant. When the energy reaches a point when it take more energy the flame ionization will not be significant.
It burns things
when each substance burns, it releases different amounts of energy. this is shown in the colours they emit as the flame when burning. Very high energy is shown by the burning of a purple flame, and it goes down in the spectrum to red, which is the lowest energy flame colour. examples of these are: lithium-red sodium-yellow iron-gold copper-green/blue potassium-lilac
A red flame has a lower energy than a blue flame, if the color arises from the photon radiation of the flame itself due to the flame's temperature. However, some inorganic ions emit red light when introduced into blue flames, and this kind of red flame does not necessarily have a lower energy than the original blue flame.
yellow
radiant energy
By fire and flame it at the same time.
The flame
Energy of flame------->Utensil------->Water-------->Potato
it is the air port which you can twist around to determined what flame you have i.e blue or red etc....... It allows the energy for the flame to be altered :) :)
Its electrons are excited to a higher energy state in the flame, and then they immediately release that energy, which is visible as yellow light.
the energy in flame of a candle is thermal energy.
The candle itself isn't but the flame is thermal energy.
The copper flame has a more energetic radiation.
During combustion, energy is released. Some of this energy takes the form of light, making the flame visible.