whoever asked this is a retard. combustion is a reaction between a fuel and oxygen in the air. during the reaction, the temperature around must be sufficiently high enough to keep up the heat of the combustion. whoever asked this is a retard. combustion is a reaction between a fuel and oxygen in the air. during the reaction, the temperature around must be sufficiently high enough to keep up the heat of the combustion.
Complete combustion of a hydrocarbon yields carbon dioxide & water; incomplete combustion yields carbon monoxide & water. By having excess oxygen you have enough oxygen to ensure complete combustion. For example the combustion of methane (CH4):complete combustion: CH4 + 2O2 --> CO2 + 2H2Oincomplete combustion: CH4 + 1.5O2 --> CO + 2H2OAs you can see you need a 1/2 mole less of oxygen for the incomplete combustion of methane. So as long as you have twice the amount (in terms of moles) of oxygen as methane you will ensure complete combustion. So anything in excess of that will also ensure complete combustion.
The combustion of amyl alcohol would produce a blue flame. This is because the blue flame indicates that complete combustion is occurring, where all the fuel is burning efficiently with enough oxygen.
The exact temperature at which a solid or liquid produces enough gas for combustion can vary depending on the material. Generally, for most materials, combustion occurs when they reach temperatures above their ignition points, which can range from a few hundred degrees Celsius to over a thousand degrees Celsius.
Incomplete combustion means burning in a lack of air (not enough oxygen). If there is not enough oxygen available for all the carbon to turn into carbon dioxide (complete combustion), then some or all of the carbon turns to carbon monoxide. This happens with any hydrocarbon - we shall take methane as an example. During incomplete combustion methane gas burns with a yellow flame (unlike the clear blue flame seen in complete combustion). Carbon particles (sooty marks) may also be seen. methane + oxygen carbon monoxide + water. 2CH4(g) + 3O2(g) 2CO(g) + 4H2O(l)
Spontaneous combustion in coal happens when the coal self-heats and ignites without an external heat source. Factors that contribute to this phenomenon include the coal's composition, moisture content, particle size, and ventilation. When coal oxidizes, it releases heat, and if the heat cannot dissipate quickly enough, it can lead to spontaneous combustion.
The plant withers and eventually dies...
When you burn something without enough oxygen for complete burning, you get incomplete burning; for example, instead of getting carbon dioxide as a combustion product, you could get carbon monoxide.
No. Evaporation and condensation is enough.
There are two main types of combustion. These are complete, in which the reactant burns in oxygen producing a few reactions, such as carbon dioxide and water. Incomplete combustion occurs when there is not enough oxygen to complete a reaction.
Carbon monoxide is produced when fuels burn without enough oxygen. This gas is toxic and can be harmful if inhaled in high concentrations. It is important to ensure proper ventilation and combustion when burning fuels to prevent the buildup of carbon monoxide.
The process of combustion is oxidation at a rapid enough rate to produce a flame. Oxidation requires an oxidizing agent. That agent is usually oxygen when a substance combusts in the atmosphere.
The non-luminous fire exist when there is a complete combustion or complete burning process. It happens when there is more than the enough oxygen in the surroundings or in the place where the process will happen.
Combustion is the description of the reaction that results when a substance burns when heat is applied fast enough. Usually combustion also cause a rapid expansion of gasses from the reaction.
The purpose of the combustion air switch in a heating system is to ensure that there is enough fresh air available for the combustion process to occur efficiently and safely.
Yes ... sort of. Without a conductor the voltage must be high enough to jump the gap. With lightning this happens all the time (the voltage is massive), but seldom happens with commercial power supplies.
If there's enough air in the area, it will.