claypool1 wrote:The color of flames is bot only derived from the combustion of a hydrocarbon, it is also a factor of the energy released in a reaction. A nuclear fission reaction is a very exothermic reaction, in fact, the color of stars is the result of the temperature of the nuclear fusion of hydrogen atoms into helium. Example: Blue stars are an excess of 30,000 K, while a cooler orange/yellow star is around 6000 K, these temps match the description of a device creating 6000+ degrees C and as we all know there is no combustion of a hydrocarbon in stars. The soot or smoke as some have called it is actually the sand from the desert floor being swept up due to the intense vacuum created upon a release of energy of the magnitude of a nuclear device.
1. Star color, as seen here on Earth, is a result of our Atmosphere. Our Sun is NOT yellow but pure white outside of our Atmosphere. Since our Sun is 6,000 degrees Kelvin it should be yellow according to this guy but it is actually WHITE. LMAO
2. I guess a YELLOW candle flame must be 6,000 degrees Kelvin as well? LMAO.
"Candles - the hottest part of the flame is just above the very dull blue part to one side of the flame, at the base. At this point, the flame is about 1,400 °C. However note that that part of the flame is very small and releases little heat energy. The blue color is due to chemiluminescence, while the visible yellow color is due to radiative emission from hot soot particles."
3. Sand is not Black nor does it produce black soot. I guess devices exploded over water also turn the water black which is then uplifted to create black soot next to the yellow flames? lmao.
4. Solar fusion is NOT Nuclear fission; they are OPPOSITES, where one fuses and the other divides.