When paraffin burns in plenty of air, carbon dioxide and water vapor are formed
When a candle burns, the paraffin wax reacts with oxygen to form carbon dioxide and water vapor. The carbon atoms in the paraffin combine with oxygen from the air to produce heat, light, carbon dioxide, and water. This chemical reaction is why the substances in paraffin change when a candle burns.
When a candle burns, it produces gases such as carbon dioxide, water vapor, and carbon monoxide. These gases are released into the air as by-products of the combustion process.
When hydrocarbon fuel burns in plenty of air, complete combustion occurs, producing carbon dioxide and water as the main substances. Incomplete combustion due to limited air can produce carbon monoxide, soot, and other harmful byproducts along with carbon dioxide and water. The specific substances produced depend on the type of hydrocarbon fuel and the combustion conditions.
When hydrocarbons are burnt in plenty of air, the main products released are carbon dioxide (CO2) and water (H2O). Additionally, small amounts of carbon monoxide (CO) and nitrogen oxides (NOx) may also be produced.
Oxygen can not burn in air.
Paraffin burns because it reacts with oxygen in the air when exposed to a heat source. This reaction releases heat and light energy, causing the paraffin to combust and produce flames.
When a candle burns, the paraffin wax reacts with oxygen to form carbon dioxide and water vapor. The carbon atoms in the paraffin combine with oxygen from the air to produce heat, light, carbon dioxide, and water. This chemical reaction is why the substances in paraffin change when a candle burns.
carbon dioxide
No, not all the air is used up when something burns in the air. The burning process consumes oxygen from the air, but not all of it. There is still plenty of other gases in the air, such as nitrogen.
air pollution
When a candle is burned, the paraffin wax is heated and undergoes a chemical reaction with oxygen from the air, resulting in combustion. The paraffin wax is broken down into smaller molecules like carbon dioxide and water vapor, releasing energy in the form of heat and light. The process is a physical and chemical change.
Oxygen
The petrol combusts (burns) so it bursts into flames. So cO2 and heat are released. An example is in cars. In cars incomplete combustion occurs, this is when there is a limited supply of air available so no damage is done to the car.
When a candle burns in a plentiful supply of air, the products of combustion are primarily carbon dioxide (CO2) and water (H2O). Additionally, small amounts of other byproducts such as carbon monoxide, soot, and trace amounts of other gases may also be produced.
When a candle burns, it produces gases such as carbon dioxide, water vapor, and carbon monoxide. These gases are released into the air as by-products of the combustion process.
When hydrocarbon fuel burns in plenty of air, complete combustion occurs, producing carbon dioxide and water as the main substances. Incomplete combustion due to limited air can produce carbon monoxide, soot, and other harmful byproducts along with carbon dioxide and water. The specific substances produced depend on the type of hydrocarbon fuel and the combustion conditions.
When hydrocarbons are burnt in plenty of air, the main products released are carbon dioxide (CO2) and water (H2O). Additionally, small amounts of carbon monoxide (CO) and nitrogen oxides (NOx) may also be produced.