Methane, ethane and propane don't have isomers (confirmers are possible) , butanes are two n-butane and iso-butane, pentanes are three n-pentane, iso-pentane and neo-pentane.
There are Five structural isomers of C3H6Cl Br
there are five possible strucal isomers
Hexane, with the chemical formula of C6H14 has five chain isomers. These five isomers include hexane, 2-methylpentane, 3-methylpentane, 2,3-dimethylbutane and 2,2-dimethylbutane.
C6H14 is the chemical formula for hexane. There are five different isomers of this molecule which are formed by the axial carbon being at any of the five different positions in the chain.
there must be five but i didnt got the last one .....
All of the following are non cyclic alkanes with five carbon atoms: pentane, methyl butane, 2,2-dimethyl propane, and 2-ethyl propane. If cyclic alkanes are included, there are also cyclopentane, methyl cyclobutane, ethyl cyclopropane, and dimethyl cyclopropane.
The isomers of C7H14 are: CH2=CHCH2CH2CH2CH2CH3 CH3CH=CHCH2CH2CH2CH3 CH3CH2CH=CHCH2CH2CH3 CH2=CHCH2CH2CH(CH3)CH3 CH2=CHCH2CH(CH3)CH2CH3 CH2=CHCH(CH3)CH2CH2CH3 CH2=C(CH3)CH2CH2CH2CH3 The above is but a sample of the isomers for C7H14. The structural arrangements are many. The first three are different from each other by the movement of the double bonds. The last four have six carbon chains in the longest chain and double bond between the first and second carbons. The double bonds within these last four structures could be moved within the straight chain to form different isomers, etc. Then we could form structures with five straight carbon chains and even four straight carbon chains with the double bond placement differing as we want it. The number of structural isomers realizable is therefore enormous.
Five isomers CCl3-CH2-CH3 CCl2-CHCl-CH3 CCl2-CH2-CH2Cl CH2Cl-CCl2-CH3 CH2Cl-CHCl-CH2Cl
I would say no they are not isomers because methylpropyl ether has four carbons, and 3-methyl-2-butanol has five carbons.
Butene-1, butene-2, 2-methylpropene, cyclobutane, and methylcyclopropane for a total of five.
Think of the possible unique locations of the bromines on the five-carbon ring. The bromines can be on adjacent carbons, or they can have one carbon in between. There are two structural isomers: 1,2-dibromocyclopentane and 1,3-dibromocyclopentane.
Hexane is an alkane of six carbon atoms. There ar five different isomers with that particular structure.
We can't answer that without knowing the numbers. The first five multiples of 5 are 5, 10, 15, 20 and 25.
Each of the first four acts has five scenes in it but the final three scenes are in act five.
2-methylhexane 2,3-dimethylpentane 2,2,3-trimethylbutane 2,4-dimethylpentane 2,2,3-trimethylbutane thats five of them
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.
One type of molecule would be the unsaturated hydrocarbon pentene, there are number of isomers of this compound.
Most humans have five fingers on each hand and five toes on each foot....
You measre each of the five sides, then add it all up.You measre each of the five sides, then add it all up.You measre each of the five sides, then add it all up.You measre each of the five sides, then add it all up.
Take the first number. Add it to itself. Keep adding that number to the total three more times. The first five nonzero multiples of 9 are 9, 18, 27, 36, and 45. Put another way, let each number equal x. The first five nonzero multiples of x are 1x, 2x, 3x, 4x and 5x.
Assuming that you can use each number multiple times, 3125, because there are five options for the first number, five for the second, and so on to reach five. Then, five times five times five times five times five, or five to the fifth power, equals 3125. Were you only able to use each number once, the answer would be 120 based on the same principle. There would be five options for the first number, four remaining options for the second, three for the third, two for the fourth, and then one for the fifth. Then, as with the first, five times four times three times two (times one, but that really isn't necessary) results in 120.
Lemurs are primates and have five fingers on each hand and five toes on each foot. The only primate to not have retained the trait pentadactylism (five fingered, five toed) is the spider monkey
If the question refers to Olympic symbol - then each circle represents each of the five continents
give five example each of human acts
There are twelve months in the each year, like in 2013. The first five months are January, February, March, April, and May. There are usually 365 days a year.