It has chemical energy.
When lighting a match stick, the chemical energy stored in the match head is converted to thermal energy through the process of combustion. This thermal energy produced causes the ignition of the match stick, releasing light and heat energy in the form of a flame.
A match stick typically contains potential energy in the form of chemical energy stored in the match head and the striking surface. When the match is struck, this potential energy is converted into thermal energy and light as the match ignites and burns.
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.
when a match is struck the friction caused is actually the electromagnetic force of the molecules which make up the match stick and the surface struck against. The electrons within the atoms of the match stick repel against the surfaces electrons and causes excitement within the atoms of the match stick. The excitement is actually heat and the kerosene on the end of the match ignites into a flame. The flame is excited electrons. They have so much energy that they are able to escape the attractive force from the nucleus. The reason why the flame is hot is because of the energy the escaping electrons carry. As for the energy, It would be the kinetic energy of the electrons. Suppose you could call that chemical energy but that's really just kinetic energy.
Lighting a match involves the conversion of chemical energy stored in the match head into thermal energy and light energy through the process of combustion.
When lighting a match stick, the chemical energy stored in the match head is converted to thermal energy through the process of combustion. This thermal energy produced causes the ignition of the match stick, releasing light and heat energy in the form of a flame.
A match stick typically contains potential energy in the form of chemical energy stored in the match head and the striking surface. When the match is struck, this potential energy is converted into thermal energy and light as the match ignites and burns.
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.
when a match is struck the friction caused is actually the electromagnetic force of the molecules which make up the match stick and the surface struck against. The electrons within the atoms of the match stick repel against the surfaces electrons and causes excitement within the atoms of the match stick. The excitement is actually heat and the kerosene on the end of the match ignites into a flame. The flame is excited electrons. They have so much energy that they are able to escape the attractive force from the nucleus. The reason why the flame is hot is because of the energy the escaping electrons carry. As for the energy, It would be the kinetic energy of the electrons. Suppose you could call that chemical energy but that's really just kinetic energy.
Lighting a match involves the conversion of chemical energy stored in the match head into thermal energy and light energy through the process of combustion.
Potential energy, released when the match is struck.
A match has chemical energy stored in the match head from the chemical reaction between the matchstick material and the phosphorus compound. When struck, this chemical energy is converted into heat and light energy through combustion.
You can light a match stick using another match stick, a lighter, or a candle. Simply expose the match head to the flame to ignite it.
When a match is burned, chemical energy is converted into thermal energy and light energy. The heat produced by the burning match causes the particles to emit light, resulting in a visible flame.
When a match is lit, chemical energy stored in the match head is converted to thermal energy through combustion. The thermal energy then ignites the wood in the match, producing light energy and more thermal energy due to the flame.
When you light a match, chemical energy is transformed to thermal energy, primarily by oxidation. When you actually strike it, the triggering energy is mechanical energy that creates heat through friction to begin the oxidation process (combustion).
A Pogo stick converts mechanical energy generated by the user bouncing up and down into kinetic energy, which is the energy of motion. The stored potential energy in the compressed spring of the Pogo stick is released as kinetic energy when the user jumps on it and starts bouncing.