The structure for 2-bromo-3-methyl-3-heptanol looks as follows: First draw a heptane chain. Single bond a bromine to the 2nd carbon. single bond a methyl group to the 3 carbon. Single bond a hydoxyl group to the third carbon as well.
The structure for 2-bromo-3-methyl-3-heptanol is as follows: start by drawing a heptane chane. This is 7 carbons. Then single bond a Br atom to the 2nd carbon. Followed by a single bonded CH3 group on the third carbon. Also bond an OH group to the 3rd carbon.
CH3-CH(Br)-C(CH3)(OH)-CH2-CH2-CH3
No, it has only one possible structure. That structure is CH2= CHCl .
H-O-Cl
F-n=n-f
h-s=s-h
When you draw the molecular structure, the structure is in fact symmetrical. When the structure is symmetrical it is non-polar therefore the forces are said to be 'london forces'/ dispersion forces.
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No, it has only one possible structure. That structure is CH2= CHCl .
H-O-Cl
F-n=n-f
It's not possible to draw here.
it is the cylindrical structure which is used to support the eyepiece. it is the cylindrical structure which is used to support the eyepiece.
h-s=s-h
dots
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