For coal is carbon burning:
C + O2 = CO2
Burning of fossil fuels is an oxidation reaction.
Fossil fuels can be burned to release the potential chemical energy stored millions of years ago.The process of burning fuels is called Combustion.
Scientists and governments around the world are worried about global warming caused by burning fossil fuels (coal, oil and natural gas) because of the serious problems it is causing.Oil companies are worried because if we stop burning fossil fuels they will go out of business.
The main content is the same. Of the wood is carbon and hydrogen, and that of fossil fuels is hydrogen and carbon. So when wood and fossil fuels are burnt the Carbon combines with oxygen to produce carbon dioxide and carbon monoxide, and the hydrogen combines with oxygen to produce water (H2O). C+O2--> CO2+CO
Carbon dioxide (CO2) is the greenhouse gas that has increased as a direct result of burning fossil fuels and deforestation. The burning of fossil fuels releases large amounts of CO2 into the atmosphere, while deforestation reduces the Earth's capacity to absorb CO2 through trees and vegetation.
Burning of fossil fuels is an oxidation reaction.
The blank space can be filled with "oxygen." The balanced chemical equation for the burning of fossil fuels is fossil fuels (composed of carbon and hydrogen) + oxygen -> carbon dioxide + water + Heat.
The chemical equation for the burning of fossil fuels can be represented by the general formula: ( \text{hydrocarbon (fuel)} + \text{oxygen} \rightarrow \text{carbon dioxide} + \text{water} + \text{heat} ). This represents the combustion reaction where hydrocarbons in fossil fuels react with oxygen to produce carbon dioxide, water, and heat energy.
carbon dioxide
The blank would be filled with "oxygen" because fossil fuels burn in the presence of oxygen to produce carbon dioxide and water. The balanced equation for burning fossil fuels is: CxHy + O2 → CO2 + H2O.
The answer that belongs in the blank space is "oxygen." The chemical equation for the burning of fossil fuels is typically written as: Fossil fuel + oxygen → carbon dioxide + water + heat.
The blank space should be filled with "oxygen." The complete chemical equation for the burning of fossil fuels is fossil fuel + oxygen + carbon dioxide + water + heat.
The chemical equation for burning fossil fuels such as gasoline is typically represented as: Hydrocarbon (e.g., C8H18) + Oxygen (O2) -> Carbon Dioxide (CO2) + Water (H2O) + Heat energy
The general chemical equation for burning fossil fuels such as gasoline is: (C_{n}H_{m} + O_{2} \rightarrow CO_{2} + H_{2}O + heat), where (n) and (m) represent the number of carbon and hydrogen atoms in the fossil fuel molecule, respectively.
Burning fossil fuels results in the combustion of hydrocarbons, releasing carbon dioxide, water, and energy. The general chemical equation for burning a hydrocarbon fuel is hydrocarbon + oxygen -> carbon dioxide + water + energy.
Carbon dioxide and water vapor belong in the blank space of the chemical equation for the burning of fossil fuels, as the reaction involves the combustion of hydrocarbons in fossil fuels in the presence of oxygen to produce carbon dioxide and water vapor, along with heat energy.
Fossil fuels release by burning carbon dioxide and water.