2-methyl propan-2-ol
It has the most branched structre so it has weaker van der waals
CH4, due to the least number of carbon atoms.
The answer is C5H12 because the boiling points of hydrocarbons increase as the number of carbon atoms are increased and as a result the compound with the fewest carbon atoms is C5H12.
C4H10
Butane-C4H10 C4H10 - H C4H9 - ? C4H9 + CHO C4H9CHO
It is hard to pinpoint how many carbon atoms are in 2.5g of butane. Roughly, the answer is 1.04 x 10^23 moles. This had to be indicated by figuring out the moles per grams first.
The melting and boiling points are different. Butane has a melting point of 135.4K and 2-methylpropane [isobutane] has a melting point of 114K. The boiling point of Butane is 272.6K and isobutane @ 261K. It has to do with there structures. J
The butane formula is molecular C4H10. Its empirical formula is C2H5
C4H10
C4H10(g) is about -126 kJ/mol C4H10(l) is about -147 kJ/mol
1 mole C4H10 = 58.1222g = 6.022 x 1023 molecules 11.7g C4H10 x 6.022 x 1023 molecules/58.1222g = 1.21 x 1023 molecules C4H10
The chemical formula for butanal is CH3CH2CH2CHO.
Butane-C4H10 C4H10 - H C4H9 - ? C4H9 + CHO C4H9CHO
It is hard to pinpoint how many carbon atoms are in 2.5g of butane. Roughly, the answer is 1.04 x 10^23 moles. This had to be indicated by figuring out the moles per grams first.
The melting and boiling points are different. Butane has a melting point of 135.4K and 2-methylpropane [isobutane] has a melting point of 114K. The boiling point of Butane is 272.6K and isobutane @ 261K. It has to do with there structures. J
The butane formula is molecular C4H10. Its empirical formula is C2H5
C4h10
Butane
The balanced equation is 2 C4H10 + 13 O2 -> 8 CO2 + 10 H2O.
Yes, C4H10 is a molecular formula representing butane, which is a type of hydrocarbon molecule. It consists of four carbon atoms and ten hydrogen atoms bonded together.