2-methyl propan-2-ol
It has the most branched structre so it has weaker van der waals
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
Although I do not know much about this chemical called C2H1010, I do know that carbon has the highest melting point of all the elements and It forms strong bonds, and so naturally some of these characteristics would carry over, and if the bonds are stronger than diatomic Cl it would take more energy to break the bonds of the C2H1010 because the carbon bonds are so prominent.
The formula is 2 x C2H5 = C4H10. :)
No, C4H10 is not an acid. It is a hydrocarbon known as butane, which is a colorless, odorless gas commonly used as fuel.
C4H10 is the saturated hydrocarbon. It is a type of alkane called butane, characterized by single carbon-carbon bonds and maximum number of hydrogen atoms.
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
Although I do not know much about this chemical called C2H1010, I do know that carbon has the highest melting point of all the elements and It forms strong bonds, and so naturally some of these characteristics would carry over, and if the bonds are stronger than diatomic Cl it would take more energy to break the bonds of the C2H1010 because the carbon bonds are so prominent.
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 correct molecular formula for methylpropane is C4H10.
The formula is 2 x C2H5 = C4H10. :)
The chemical formula for butanal is CH3CH2CH2CHO.
No, C4H10 is not an acid. It is a hydrocarbon known as butane, which is a colorless, odorless gas commonly used as fuel.
C4H10 is the saturated hydrocarbon. It is a type of alkane called butane, characterized by single carbon-carbon bonds and maximum number of hydrogen atoms.
To find the mass of O2 that will react with 400 g of C4H10, first calculate the moles of C4H10 using its molar mass. Then, using the balanced chemical equation for the reaction between C4H10 and O2, determine the mole ratio between C4H10 and O2. Finally, convert the moles of C4H10 to moles of O2 and then to grams of O2 using the molar mass of O2.
The balanced equation for the reaction of tetracarbon decahydride (C4H10) and oxygen (O2) is: C4H10 + 6.5 O2 → 4 CO2 + 5 H2O.
C4h10