Do you mean the molecular formula? If so, then it is C4H10. If you mean empirical formula, then it is C2H5.
The carbon to hydrogen ratio is 4/10.
Butane is a gas. Gases are not malleable.
Butane is an alkane - C4H10.
Butane is an alkane produced synthetically from petroleum.
Yes, butane does have isotopes. The most common isotopes of butane are carbon-12 and carbon-13. Isotopes of butane can have varying masses due to differences in the number of neutrons in the nucleus.
Butane gas is compressible. It can be compressed into a smaller volume at higher pressures.
Yes, butane is a chemical compound. It is a hydrocarbon with the chemical formula C4H10, composed of four carbon atoms and ten hydrogen atoms. Butane is commonly used as a fuel for lighters and camping stoves.
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.
To determine the moles of CO2 formed when 58 g of butane burns in oxygen, first, calculate the moles of butane using its molar mass. Then, use the stoichiometry of the balanced chemical equation to find the moles of CO2 formed, as per the ratio of the coefficients in the balanced equation.
Butane is a gas. Gases are not malleable.
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
The empirical formula of organic compounds is the lowest whole number ratio of atoms contained in the substance, as defined in chemistry. The empirical formula gives the minimal ratio of the number of various atoms that exist. It's an empirical formula, if the formula is shortened, but not the exact number of atoms in the molecule, C4H6 is the chemical formula for butane. For every mole of carbon, there are two moles of hydrogen. The carbon-to-hydrogen ratio equals 2:3. C2H3 is the empirical formula for butane (C4H6). Hence, the correct answer is C2H3.
Butane is an alkane - C4H10.
Inguna Butane is 175 cm.
No, butane is a pure substance because it is a compound made up of only one type of molecule, which is C4H10.
To calculate the mass of butane needed to produce 96.3 g of carbon dioxide, we first need to determine the molar ratio between butane and carbon dioxide. One mole of butane produces 4 moles of carbon dioxide. Next, calculate the molar mass of carbon dioxide (44.01 g/mol). Finally, using the molar ratio, determine the mass of butane needed by dividing the mass of carbon dioxide by the molar mass of carbon dioxide and then multiplying by the molar ratio.
butane has four carbons
Butane is an alkane produced synthetically from petroleum.