This is a very vague question! How big is your candle? How long will you burn it for? Wax is a hydrocarbon, so in burning it you are breaking C-C bonds and C-H bonds, and forming new bonds in carbon dioxide and water - so you could do a calculation involving bond enthalpy data. But I don't think you meant your question that way. So.. how about this answer: 'Not much'. Things that burn with a yellow flame are not burning very effectively: the yellow flame is carbon particles that didn't get burned, glowing. If you hold a glass over your candle you will be able to collect all that as soot. Things that are burning blue are burning more efficiently and so producing more heat: they are using more oxygen too. If you have a gas boiler in yoru house it is important that the flame is blue not yellow. A yellow flame shows that your boiler is not getting enough oxygen to form carbon dioxide and will instead be producing carbon monoxide, which is poisonous. If you meant how hot is the flame, I'd guess about 600 degrees Celcius. A good roaring Bunsen flame is about 1800 degrees. anyone who knows specifically, please add to this answer!
When a candle burns, the primary types of energy released are heat and light. The heat is a result of the chemical reaction between the wax and the oxygen in the air, while the light is produced by the glowing carbon particles in the flame.
Yes, a burning candle is an example of an exothermic reaction. When the candle wax reacts with the oxygen in the air, it produces heat and light energy as byproducts. This release of heat is what makes the candle flame feel warm to the touch.
The materials of the candle as waxes, paraffin.
the heat of the hot flame is transferred to the colder candle hey brookie bee i hope this helps i got it from study island good luck :)
A candle converts chemical energy stored in the wax into heat and light energy through combustion. The chemical reactions release heat and light as energy, with a small amount lost as sound and heat to the surroundings.
When a candle burns, it gives off heat energy in the form of light and heat. The amount of heat produced by a candle can vary depending on factors such as the size of the candle and the type of wax used. Generally, a candle can produce around 80-100 watts of heat energy while burning.
Heat and light energy.
One way to measure the amount of heat from a burnt candle is by using a calorimeter, which can quantify the amount of heat released during the combustion process. Another method is to measure the temperature change in the surroundings caused by the burning candle, as an increase in temperature indicates the amount of heat released.
A candle converts chemical energy stored in the wax and wick into heat and light energy through combustion. The chemical energy in the candle is released as heat and light when the wax is burned, creating a flame.
Potential energy is in an unlit candle, which is converted to heat energy, once the candle is lit.
When a candle burns, the primary types of energy released are heat and light. The heat is a result of the chemical reaction between the wax and the oxygen in the air, while the light is produced by the glowing carbon particles in the flame.
Typically, chemical potential energy is converted into heat and light. When atoms light energy. It is this energy that you see released when the candle burns.
The energy being released from a burning candle is primarily in the form of heat and light. The flame is the result of a chemical reaction between the wax and oxygen, producing energy in the form of heat and light.
A burning candle is a good example of energy being released as heat. As the candle burns, the chemical energy stored in the wax is converted into heat and light energy, with the majority of the energy being released as heat. This process demonstrates the conversion of one form of energy (chemical) into another (thermal).
A burning candle represents both potential and kinetic energy. The potential energy is stored in the candle wax and is released as heat and light energy when the candle burns, which is the kinetic energy produced.
A burning candle possesses chemical energy, which is released as heat and light through the combustion of wax and wick. The heat and light produced are forms of kinetic and radiant energy, respectively.
The chemical energy stored in the candle wax.