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Just try to draw the structures with different arrangements of carbon atoms having four valencies each, there are 5 isomers for this formula.
None, as it has 5 structural isomers in which none of are optically active.
All pentane isomers have always 5 carbon atoms. Besides that, there are 12 hydrogens: C5H12, except cyclopentane (C5H10).
Glucose C6H12O6 has six isomers, there are two configurations of Glucose, D-Glucose and L-Glucose, both of these have further three isomers one open chain and two closed chain or cyclic isomers one is Alpha-Glucose and other is Beta-Glucose.
Answer ...There are 5 structural isomers of C6H14. The structural names are: hexane, 2-methylpentane, 3-methylpentane, , 2,3-dimethylbutane and 2,2-dimethylbutane.
Just try to draw the structures with different arrangements of carbon atoms having four valencies each, there are 5 isomers for this formula.
None, as it has 5 structural isomers in which none of are optically active.
There are Five structural isomers of C3H6Cl Br
only two structural isomers are possible, 1-chloropropane and 2-chloropropane
All pentane isomers have always 5 carbon atoms. Besides that, there are 12 hydrogens: C5H12, except cyclopentane (C5H10).
Well let me see... isomers are compounds which share the same moecular formula (ieC6H14) but have different structures. So isomers of hexane (c6h14) include: Hexane 2-Methylpentane 3-Methylpentane 2,3-Dimethylbutane 2,2-Dimethylbutane Hope this helps
Glucose C6H12O6 has six isomers, there are two configurations of Glucose, D-Glucose and L-Glucose, both of these have further three isomers one open chain and two closed chain or cyclic isomers one is Alpha-Glucose and other is Beta-Glucose.
There are 5 different carbon backbone structures including benzine that are possible isomers of C6H12O. Of these 5, the benzine ring can only form -OH compounds with the formula C6H12O so there is only one benzine isomer. The linear carbon chain can form 3 different isomers with a double bonded oxygen; an aldehyde and 2 ketones (on the first, second, or third carbon). It can also form 15 different alkene isomers with an -OH functional group (hyrdoxyl) in different positions on the chain and a double bond on the first, second or third carbon in the chain. This gives 18 total possible isomers of C6H12O with the linear 6 carbon chain. There are two variation with a five carbon chain and a methyl group on the second and the third carbon in the chain. There is a 4 carbon chain variation with an ethyl on the second carbon in the chain. Both the five and four carbon chain variations can make different isomers with a double bonded oxygen in various locations and alkene variations with a double bond in the carbon chain and an -OH functional group (hyrdoxyl) in different positions on the chains. Over all there are over 60 different isomers of C6H12O that are possible.
Answer ...There are 5 structural isomers of C6H14. The structural names are: hexane, 2-methylpentane, 3-methylpentane, , 2,3-dimethylbutane and 2,2-dimethylbutane.
There are six different cycloalkane isomer possibilities for C5H10 1) cyclopentane 2) methylcyclobutane 3) 1,1-dimethylcyclopropane 4) cis-1,2-dimethylcyclopropane 5) trans-1,2-dimethylcyclopropane 6) ethylcyclopopane *Note that #4 and #5 are cis/trans isomers of each other. They are not structural isomers, because they have their methyl groups connected on the same carbon atoms on the cyclopropane (they are just connected in different ways).
The answer is 15 carbon atoms.
Hexane is a mixture of 3 isomers out of a possible 5 isomers of 6 carbon alkanes. Normally there are 3 peaks for GC. Use a GC grade n-Hexane for one peak of the 'main' hexane.