Nonane contain 84,37 % carbon and 15,62 % hydrogen.
Petrol is a compound, not an element. It is made up of a mixture of hydrocarbons, primarily containing carbon and hydrogen atoms.
When petrol burns, chemical energy stored in the molecules of petrol is converted into heat and light energy. This is a result of the combustion process, where the carbon and hydrogen in petrol react with oxygen to form carbon dioxide and water, releasing energy in the form of heat and light.
C4+8H2-->4CH4 48g of C and 16g of H2 gives 64g of CH4 here we see the ratio is 3:1 to give product. we have 452kg of methabe so divide it into 3:1 we got. 113kg of Hydrogen and..339kg of Carbon
This is a common ratio for carbohydrate compounds, saccharides, glucosides, cellulose and starch, etc. etc.
The ratio of carbon to hydrogen in a hydrocarbon molecule can vary depending on the specific compound. However, in general, hydrocarbons tend to have a higher ratio of hydrogen atoms to carbon atoms. For example, in the simplest hydrocarbon, methane (CH4), the ratio of carbon to hydrogen is 1:4.
petrol consists of carbon and hydrogen, when it burns it produces carbon dioxide and water if complete combustion occurs
Glucose has C:H:O in the ratio 1:2:1. Its molecular formula is C6H12O6.
Petrol is called a hydrocarbon because it is primarily composed of molecules containing hydrogen and carbon atoms. The main components of petrol are hydrocarbons such as octane, which is a chain of eight carbon atoms bonded together with hydrogen atoms.
Carbon, Hydrogen, and Oxygen ine the ratio of 1:2:1
Nonane contain 84,37 % carbon and 15,62 % hydrogen.
Carbon, hydrogen, and oxygen. Carbohydrates have a ratio of CHO of 1:2:1. Fats have CHO but with a different ratio. Proteins have CHO and nitrogen.
Petrol is a compound, not an element. It is made up of a mixture of hydrocarbons, primarily containing carbon and hydrogen atoms.
12 carbon atoms 26 hydrogen atomsC12H26
A compound with a ratio of 1 carbon, 2 hydrogen, and 1 oxygen is formaldehyde, which has the chemical formula CH2O.
The carbon, hydrogen, and oxygen ratio in proteins can vary depending on the specific amino acid composition of the protein. On average, the ratio is approximately 1:1.5:0.5, meaning there are slightly more hydrogen atoms than carbon atoms and half as many oxygen atoms as carbon atoms. This ratio reflects the elemental composition of amino acids, which are the building blocks of proteins.
In the universe, the ratio, by mass, is C : H : O = 1 : 150 : 2.