This formula could be any of many numerous compounds which include some functional groups such as ester, alcohol and carboxyclic acid with a combination of any of these functional groups. Even with a compound determined there could be isomers of the compound. To find which a specific compound then analysis is needed from a infra red, N.M.R (nuclear magnetic resonance) and mass spectrum.
C2H12O6 is a carbohydrate, specifically a hexose sugar called glucose.
The formula C2H12O6 is wrong! Perhaps you mean C6H12O6: it stands for a complex of molecules included in the carbohydrates which name are exoses. Same exoses are glucose and fructose. So that formula could be present in an apple, in wood and leaves of a plant, in the liver and the blood of a man, in the paper and in a potato.
C2H12O6, also known as sugar, is not an element but a molecule made up of three elements: six parts carbon, twelve parts hydrogen and six parts oxygen.
No because they need;M movementR reproductions sensitivityG growthr respiratione excretion (pooing)n nutriointo live! what you need to know is the photosynthesis equation which is;CO2 + H2O ----> O2 + C2H12O6(GLUCOSE) and on the arrow there should be light in small. the sunlight is on the arrow and you dont allows need soil llike when making cress. but most use soil because it soaks up h20 (water) ;)
To find the percentage of carbon in C2H12O6, first calculate the molar mass of the compound: (2 * molar mass of carbon) + (12 * molar mass of hydrogen) + (6 * molar mass of oxygen). Then, divide the molar mass of carbon by the total molar mass of the compound and multiply by 100 to get the percentage.
2C6H12O6 refers to two molecules of glucose. Glucose is a simple sugar that is commonly used by living organisms as a source of energy through the process of cellular respiration.
Products are substances that are formed as a result of a chemical reaction. They are the end result of the reaction and are produced from reactants through a rearrangement of atoms and/or bonds. Products can be in different states of matter and can have different chemical properties from the reactants.