28. Acyclic alkanes have the formula CnH(2n+2). If n is 13, 2n+2 is 28.
An acyclic alkane with 13 carbon atoms will have 28 hydrogen atoms. This is because each carbon atom in an alkane forms 4 single bonds with other atoms, and in this case, each of the 13 carbon atoms will form single bonds with 2 hydrogen atoms and 2 other carbon atoms.
An acyclic alkane hydrocarbon with n carbon atoms will contain 2n+2 hydrogen atoms. This is based on the formula CnH2n+2 for alkanes.
An alkane with six carbon atoms would be hexane (C6H14). Since each carbon atom is bonded to two hydrogen atoms in an alkane, you would have 6 carbon atoms x 2 hydrogen atoms per carbon = 12 hydrogen atoms.
In a noncyclical alkane with five carbon atoms, each carbon atom is bonded to 2 hydrogen atoms, except the terminal carbon atoms which are bonded to 3 hydrogen atoms. Therefore, in a 5-carbon noncyclical alkane, there would be a total of 12 hydrogen atoms.
An alkane with 3 carbon atoms would have 8 hydrogen atoms in the molecule. Alkanes follow the formula CnH2n+2, where n represents the number of carbon atoms in the molecule.
In an alkane the number of hydrogen atoms is two greater than twice the number of carbon atoms. If we reverse this rule, we find that the number of carbon atoms is one less than half the number of hydrogen atoms. 32/2=16 16-1=15 So our alkane would have 15 carbon atoms. This alkane would be pentadecane or one of its isomers.
An acyclic alkane hydrocarbon with n carbon atoms will contain 2n+2 hydrogen atoms. This is based on the formula CnH2n+2 for alkanes.
A non cyclic alkane always has a number of hydrogen atoms equal to 2c + 2, where c is the number of carbon atoms. Therefore, hexadecane, an alkane with 16 carbon atoms, will have 34 hydrogen atoms.
An alkane with 3 carbon atoms would have 8 hydrogen atoms in the molecule. Alkanes follow the formula CnH2n+2, where n represents the number of carbon atoms in the molecule.
In an alkane the number of hydrogen atoms is two greater than twice the number of carbon atoms. If we reverse this rule, we find that the number of carbon atoms is one less than half the number of hydrogen atoms. 32/2=16 16-1=15 So our alkane would have 15 carbon atoms. This alkane would be pentadecane or one of its isomers.
A 4 carbon linear alkane, such as butane, has the chemical formula C4H10 because each carbon atom in the chain can form bonds with 3 hydrogen atoms. In contrast, a 4 carbon cyclic alkane, such as cyclobutane, has the chemical formula C4H8 because two of the carbon atoms in the ring are involved in forming the ring structure and cannot form bonds with additional hydrogen atoms.
The general formula for an alkane is CnH2n+2, where n is the number of carbon atoms in the alkane molecule. Alkanes are saturated hydrocarbons composed only of carbon and hydrogen atoms bonded together by single covalent bonds.
halo alkane or alkyl halides
In a noncyclical alkane with five carbon atoms, each carbon atom is bonded to 2 hydrogen atoms, except the terminal carbon atoms which are bonded to 3 hydrogen atoms. Therefore, in a 5-carbon noncyclical alkane, there would be a total of 12 hydrogen atoms.
The general formula for an alkane is CnH2n+2, where "n" represents the number of carbon atoms in the molecule. Alkanes are saturated hydrocarbons with single bonds between carbon atoms.
In Science an alkane is a paraffin, an organic compound and is a saturated hydrocarbon. Made up of only carbon and hydrogen atoms.
An alkane with 20 carbons will have 42 hydrogens. This can be calculated using the formula 2n+2, where n is the number of carbons (C) in the alkane. So for an alkane with 20 carbons, the number of hydrogens would be 2(20) + 2 = 42.
No. It is a normal alkane. In a cycloalkane, the number of hydrogen atoms cannot be more than twice the number of carbon atoms.