i need the answer as well lol
Purple fire is real and can be achieved through adding certain chemicals or minerals to a flame. For example, the element potassium can produce a purple flame when burned. However, natural occurrences of purple fire are extremely rare.
Potassium burns with a purple flame.
When excited by electric current flowing in it.
The element responsible for the purple color in Potassium Permanganate is manganese. In its permanganate ion form, manganese exhibits a deep purple color.
The element described is likely iodine. Iodine is a shiny nonmetal that sublimes into purple vapors when heated.
When nitrogen gas is mixed with electricity, such as in a plasma discharge tube, it can produce a purple color. This happens due to the specific energy levels of nitrogen atoms being excited by the electrical energy, causing them to emit purple light.
Purple fire is real and can be achieved through adding certain chemicals or minerals to a flame. For example, the element potassium can produce a purple flame when burned. However, natural occurrences of purple fire are extremely rare.
Potassium burns with a purple flame.
No. The purple leaved plum is Prunus Pissardii which very occasionaly will produce plums.
When excited by electric current flowing in it.
The element responsible for the purple color in Potassium Permanganate is manganese. In its permanganate ion form, manganese exhibits a deep purple color.
The element described is likely iodine. Iodine is a shiny nonmetal that sublimes into purple vapors when heated.
Anoxygenic photosynthesis is a type of photosynthesis that does not produce oxygen. This process is primarily carried out by certain bacteria, such as green sulfur bacteria and purple bacteria, which do not use water as an electron donor and therefore do not release oxygen as a byproduct. Instead, they use alternative electron donors in their photosynthetic reactions.
Argon does not emit any visible light on its own. It is a noble gas that is colorless, odorless, and tasteless. Argon is often used in fluorescent lighting and signs to produce a blue or purple glow when excited by electricity.
The atomic spectra of an element is basically the lines of color that appear when an electron jumps down or up an energy level. Depending on the shells that an electron jumps is the intensity or the color omitted. The colors that we see (yellow, orange, red, green, blue, purple) mean different level jumps with purple being the highest and yellow being the lowest. The higher the energy level the lower the wavelength omitted and the lower the energy jump the higher the wavelength.
Red=Angry Blue=Calm Purple=Love Green=Excited
No There bloom is yellow