because it says anol that shows that it is an alchohol..... so start of with the word....pent...which means there are 5 carbons... the second carbon has CH3 over top.... and than the 1st carbon has an alch....OH group attached to it CH3 H H I I I HO-C - C - C - C - H I I I I H H H H because it says anol that shows that it is an alchohol..... so start of with the word....pent...which means there are 5 carbons... the second carbon has CH3 over top.... and than the 1st carbon has an alch....OH group attached to it HO-C-CHCH3-CH2-CH3
because it says anol that shows that it is an alchohol..... so start of with the word....pent...which means there are 5 carbons... the second carbon has CH3 over top.... and than the 1st carbon has an alch....OH group attached to it CH3 H H I I I HO-C - C - C - C - H I I I I H H H H because it says anol that shows that it is an alchohol..... so start of with the word....pent...which means there are 5 carbons... the second carbon has CH3 over top.... and than the 1st carbon has an alch....OH group attached to it HO-C-CHCH3-CH2-CH3
2-butene is an alkene which may undergo several addition reactions as Hydrohalogenaton, Halogenation, Hydration, Catalytic hydrogenation, Hydroxylation and so many others some are as follows.. CH3-CH=CH-CH3 + HCl -----------> CH3-CH2-CHCl-CH3 CH3-CH=CH-CH3 + Cl2 ------------> CH3-CHCl-CHCl-CH3 CH3-CH=CH-CH3 + H2O ----H+---> CH3-CH2-CHOH-CH3
H-CCl2-CCl2-H
H-CH3 : H2-C=O, H3-C-OH, H-COO-H. Organic Chemistry is [no more and no less than] the Chemistry of the Compounds of Carbon.
because it says anol that shows that it is an alchohol..... so start of with the word....pent...which means there are 5 carbons... the second carbon has CH3 over top.... and than the 1st carbon has an alch....OH group attached to it CH3 H H I I I HO-C - C - C - C - H I I I I H H H H because it says anol that shows that it is an alchohol..... so start of with the word....pent...which means there are 5 carbons... the second carbon has CH3 over top.... and than the 1st carbon has an alch....OH group attached to it HO-C-CHCH3-CH2-CH3
There are four isomers of C4H9Cl or butyl chloride. These are: CH3-CH2-CH2-CH2-Cl or 1-chlorobutane, CH3-CHCl-CH2-CH3 or 2-chlorobutane, CH3-CH(CH3)-CH2-Cl or 1-chloro-2-methylpropane and CH3-C(CH3)Cl-CH3 or 2-chloro-2-methylpropane.
because it says anol that shows that it is an alchohol..... so start of with the word....pent...which means there are 5 carbons... the second carbon has CH3 over top.... and than the 1st carbon has an alch....OH group attached to it CH3 H H I I I HO-C - C - C - C - H I I I I H H H H because it says anol that shows that it is an alchohol..... so start of with the word....pent...which means there are 5 carbons... the second carbon has CH3 over top.... and than the 1st carbon has an alch....OH group attached to it HO-C-CHCH3-CH2-CH3
CH3 stands for methyl group ,i.e. methyl group is formed when a hydrogen atom is removed from methane .
No. 0.162 mi/h is faster than 0.15 mi/h.
Difficult to draw here, but let's try to describe: Three methyl groups (CH3-) and one H- atom bonded to one central C atom, then you'll get something like this: . . . .H CH3-C-CH3 . . . .CH3
2-butene is an alkene which may undergo several addition reactions as Hydrohalogenaton, Halogenation, Hydration, Catalytic hydrogenation, Hydroxylation and so many others some are as follows.. CH3-CH=CH-CH3 + HCl -----------> CH3-CH2-CHCl-CH3 CH3-CH=CH-CH3 + Cl2 ------------> CH3-CHCl-CHCl-CH3 CH3-CH=CH-CH3 + H2O ----H+---> CH3-CH2-CHOH-CH3
H-CCl2-CCl2-H
Methane is CH4 or H-CH3 Ethane is CH3-CH3 When compared to H- (in methane), the CH3- (methyl group in ethane) is more electron donating and hence ethane is more basic than methane.
This browser does not support the simplest graphics so drawing a formula is out of the question, but, the formula is of the formH-(1)-C-(3)-C-(1)-H that is, a hydrogen atom single bonded to a carbon atom triple bonded to another carbon atom single bonded to hydrogen a atom.
H-CH3 : H2-C=O, H3-C-OH, H-COO-H. Organic Chemistry is [no more and no less than] the Chemistry of the Compounds of Carbon.
The faster train would travel at 134 km/h and the slower train at 123 km/h. Their combined speeds would have them covering 257 km/h, which in 6 hours would cover the 1542km distance.