the balanced equation for the lighting of a match is: 16KCl3 + 3P4S3 --> 16 KCl + 9SO2
I'm pretty sure that's it:)
this equation is wrong, you started off with phosphorous, but you did not have phosphorous in the result of the chemical reaction. Therefore, no such reaction can exist
The balanced equation for lighting a match involves the combustion of the match head. It can be represented by the chemical equation: S(s) + O2(g) → SO2(g) + heat and light. This equation shows the sulfur in the match head reacting with oxygen in the air to produce sulfur dioxide, heat, and light.
Lighting a match is a chemical change because the molecules in the matchstick undergo a chemical reaction when exposed to heat, resulting in the production of new substances like ash and smoke.
The activation energy in the chemical reaction of lighting a match is supplied by the heat generated when the match is struck against the striking surface. This heat is enough to break the chemical bonds in the match head, leading to combustion and the release of energy in the form of light and heat.
When a match is lit, the chemicals in the match head undergo a chemical reaction resulting in the production of heat, light, and new chemical compounds like carbon dioxide and water vapor. This transformation of the chemical composition of the match represents a chemical change.
Burning a match is a chemical change. Whether the act of lighting it is makes for an interesting philosophical discussion. Exactly what do we mean by lighting it? Is it the movement of striking? In which case, no, that's just motion, so that's physical. Is it the application of heat, from friction or otherwise? Again, no new substance is produced at that point, so no. Do we mean the beginning of flame? Yes, as soon as it's burning, new substances are being produced.
The balanced equation for lighting a match involves the combustion of the match head. It can be represented by the chemical equation: S(s) + O2(g) → SO2(g) + heat and light. This equation shows the sulfur in the match head reacting with oxygen in the air to produce sulfur dioxide, heat, and light.
Yes, lighting a match is a chemical change because the chemicals in the match head undergo a chemical reaction when exposed to heat from friction, resulting in the release of energy in the form of light and heat.
Lighting a match is a chemical change because the molecules in the matchstick undergo a chemical reaction when exposed to heat, resulting in the production of new substances like ash and smoke.
Mainly chemical (oxidation).
lighting a match from a matchbox is a chemical change.
Yes, lighting a match from a matchbox is a chemical change, not a physical change. When the match is struck, the chemicals on the match head react to produce heat, light, and a flame. This transformation is a chemical reaction, not just a change in physical state.
This is a little tricky. Striking a match is a physical act, but it does induce chemical changes. It depends on exactly what you mean by "lighting", ultimately. The end result is definitely a chemical change.
The activation energy in the chemical reaction of lighting a match is supplied by the heat generated when the match is struck against the striking surface. This heat is enough to break the chemical bonds in the match head, leading to combustion and the release of energy in the form of light and heat.
When a match is lit, the chemicals in the match head undergo a chemical reaction resulting in the production of heat, light, and new chemical compounds like carbon dioxide and water vapor. This transformation of the chemical composition of the match represents a chemical change.
Yes, lighting a matchstick is a physical action that involves striking the match head against a rough surface to produce friction and heat, which ignites the match.
The total amount of energy remains constant, but it is transformed from chemical energy in the match head to thermal energy (heat) and electromagnetic energy (light) when the match is lit. This is an example of energy conservation in a closed system.
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.