C4h10o
The molecular formula of Butane is C4H10. It's an organic compound that is a gas at room temperature, and is highly flammable, colorless, easily liquefied. The structure of n-Butane is CH3-CH2-CH2-CH3.
Carbon & hydrogen are the two types of elments of the present in butane.
Butane has more hydrogen (H) atoms than butene. Butane is a saturated hydrocarbon with the chemical formula C4H10, while butene is an unsaturated hydrocarbon with the formula C4H8, meaning butene has two less hydrogen atoms compared to butane.
Each mole of butane, which has formula of C4H10, contains 10 moles of hydrogen atoms. If the butane is completely combusted, all of the hydrogen in the butane is converted in water, with the formula H2O. The amount of water vapor will accordingly be 5.50 X 10/2 = 27.5.
Do you mean the molecular formula? If so, then it is C4H10. If you mean empirical formula, then it is C2H5.
The formula is 2 x C2H5 = C4H10. :)
The chemical formula for butanal is CH3CH2CH2CHO.
Formula: C4H10
C4H10 is the molecular formula for butane, as it represents the actual number of atoms of each element in a single molecule of the compound. The empirical formula for butane would be CH5, as it shows the simplest whole number ratio of atoms present in the compound.
Formula: C4H10
Butane
C4h10
The molecular formula of Butane is C4H10. It's an organic compound that is a gas at room temperature, and is highly flammable, colorless, easily liquefied. The structure of n-Butane is CH3-CH2-CH2-CH3.
It is a hydrocarbon with the formula, C4H10
Butane is a component of LPG Liquefied Petroleum Gas. Butane is a hydrocarbon that is present natural gas and can be obtained when petroleum is refined. Butane is a gaseous alkane. The chemical symbol of Butane is C4H10. The main advantage of Butane is that it can be liquefied easily. This means that Butane can be used in both liquid and solid forms
Ch3ch3cclch3
There are no double bonds in the structural formula for butane (C4H10). Butane is a straight-chain alkane with four carbon atoms bonded to each other with single bonds and the remaining hydrogen atoms.