I think it is kinetic energy because it is moving and moving energy is kinetic energy.
A lit match contains chemical energy stored in the match head, as well as thermal energy released as heat and light when the match is burning. So there are at least two forms of energy in a lit match.
Technically its potential energy until it's lit, and then it depends on the match brand.
The chemical energy - sugars - in your bloodstream are absorbed by the muscle cells in your arms. Your muscles convert this chemical energy into kinetic energy (the energy of motion) in moving the match against the sandpaper surface. The movement of the match against the sandpaper surface causes friction, changing the kinetic energy into heat. The heat of friction in the matchhead causes the phosphorus coating to ignite, converting the heat of friction into heat of combustion, in which the chemical energy in the match is oxidized into radiant heat.
Well, honey, when you strike that match, you're converting the potential energy stored in the match head into thermal energy through friction. As the match ignites, the chemical potential energy in the match head is transformed into heat and light energy. So, basically, you're turning a boring old match into a fiery little showstopper.
When a match is lit, the chemical energy stored in the match head is converted into thermal energy (heat) and light energy. This causes an increase in the thermal energy and light energy stored in the surroundings.
The candle ispotential energy because kinetic is moving energy .actually isn't fire moving? if you blow on it wouldn't it be moving?Well it would potential energy if it wasn't lit but if it was lit it could be either light energy or kinetic energynewtest3
A lit match contains chemical energy stored in the match head, as well as thermal energy released as heat and light when the match is burning. So there are at least two forms of energy in a lit match.
Technically its potential energy until it's lit, and then it depends on the match brand.
The chemical energy - sugars - in your bloodstream are absorbed by the muscle cells in your arms. Your muscles convert this chemical energy into kinetic energy (the energy of motion) in moving the match against the sandpaper surface. The movement of the match against the sandpaper surface causes friction, changing the kinetic energy into heat. The heat of friction in the matchhead causes the phosphorus coating to ignite, converting the heat of friction into heat of combustion, in which the chemical energy in the match is oxidized into radiant heat.
Well, honey, when you strike that match, you're converting the potential energy stored in the match head into thermal energy through friction. As the match ignites, the chemical potential energy in the match head is transformed into heat and light energy. So, basically, you're turning a boring old match into a fiery little showstopper.
When a match is lit, the chemical energy stored in the match head is converted into thermal energy (heat) and light energy. This causes an increase in the thermal energy and light energy stored in the surroundings.
chemical energy
The energy of mechanical work is converted into light and heat energy when a match stick is struck against a matchbox. Friction between the match head and the rough surface ignites the match head, producing light and heat as a result.
A blazing bonfire is the release of chemical energy.Kinetic energy is that energy that is part of a body because of its motion.Potential energy is that energy that is part of a body because of its position in a gravity field. kinetic and potential energy can interchange.However the energy in a bonfire is trapped radiation energy (sunlight) stored chemically in the substance of the wood and released by a chemical reaction.
A lit candle has thermal energy (heat) due to the flame, light energy emitted by the flame, and chemical potential energy stored in the wax that is being converted to heat and light through combustion.
When a match is lit, chemical energy stored in the match head is converted to thermal energy through a chemical reaction called combustion. This thermal energy raises the temperature of the match head, causing it to ignite and release light and heat energy in the form of a flame.
holding a lit match to paper