this stupid website is so awful it will not answer anything I want it to answer. All I wanted to know was what elements are in the air in the candle and in the air when the candle burns? and they did not have it I thought it said that they would give u all the answers u need but I am not going on this website ever ever again
It produces carbon dioxide.
Paraffin is a compound made when a candle burns
That depends on the density, cross-sectional area, and chemical composition of the candle, and on the turbulence in the air surrounding it.
Usually a colored candle. I think yellow burns the fastest of all. It has to do with the chemicals associated with the pigment of the color.
A small stable flame of a candle has a lot less black smoke than a larger flickering flame. Air around the burning candle causes this to happen.
this stupid website is so awful it will not answer anything I want it to answer. All I wanted to know was what elements are in the air in the candle and in the air when the candle burns? and they did not have it I thought it said that they would give u all the answers u need but I am not going on this website ever ever again
combustion
It burns the oxygen. r
YES. The available amount of oxygen in air regulates the candles burn. The oxygen burns with the paraffin wax. Both are consumed. A mix of more oxygen will burn faster and hotter. Rapid oxydation is dangerous.
Wax is made of hydrogen and carbon. When a candle burns, the hydrogen and carbon from the wax combine with the oxygen in the air to become carbon dioxide and water vapor. Most of the matter in the candle ends up as these two gases. If you are looking for candle making supplies, please check out ohcans candle.
The yellow candle burns fastest .
the ivory candle is going to burn the fastest
The flame heats the air and it is lighter so it goes upwards.
It produces carbon dioxide.
Paraffin is a compound made when a candle burns
That depends on the density, cross-sectional area, and chemical composition of the candle, and on the turbulence in the air surrounding it.
That depends on the density, cross-sectional area, and chemical composition of the candle, and on the turbulence in the air surrounding it.