Which Alkenes Can Exhibit Cis/Trans Isomerism?

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Cis/trans isomerism can occur in several alkenes, with 2-pentene, 3-hexene, and 1,2-dibromocyclodecene identified as capable of exhibiting this property. The discussion clarified that some compounds initially thought to have ambiguous naming do indeed allow for cis/trans isomerism when properly analyzed. The importance of recognizing locants for substituents and the structure of the double bond was emphasized, particularly in identifying isomers. The participants also discussed the drawing of isomers, noting that both (E) and (Z) configurations apply to cyclodecenes. Overall, the conversation focused on identifying and illustrating correct cis/trans isomers among various alkenes.
ChemDoodle
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Hey,i just need someone to check my answers :)

Which of these can exist as cis/trans isomers?
a.1-pentene
b.2-pentene
c.1-chloropropene
d.3-chloropropene
e.1,3,5-hexatriene
f.1,2-dibromocyclodecene
g.propene
h.3-hexene
i.2-hexene
j.2-methyl-2-butene

I solved it & my answers are c,e and h.Is this correct?
& about 1,2-diboromocyclodecene..I wasn't able to draw a cis/trans structure.Can someone please illustrate?

Thnakyou :)
 
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ChemDoodle said:
Hey,i just need someone to check my answers :)

Which of these can exist as cis/trans isomers?
a.1-pentene
b.2-pentene
c.1-chloropropene
d.3-chloropropene
e.1,3,5-hexatriene
f.1,2-dibromocyclodecene
g.propene
h.3-hexene
i.2-hexene
j.2-methyl-2-butene

I solved it & my answers are c,e and h.Is this correct?

c, d and f seem to have ambiguous names to me. Whilst you have locants for what I assume is the halogen in each case, you don't for the alkene. e and h certainly exist as cis / trans pairs, but you're still missing some. Can you draw each of them out?
 
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These are the names given in my textbook & we're supposed to solve accordingly.I drew each one of them..But some of them seemed to have Z/E isomerism since none of the substituants around the C=C are similar.
 
Oh & btw..when there are no locants for the alkene..then we're supposed to assume it as 1.
 
Thanks for clarifying the locant situation - in that case all the ones you have so far are correct.

OK, let's take for instance (i). What do you have at each end of your double bond here?
 
On the first C there is H & CH3 & on the second C there is H & CH2CH2CH3.
So there is cis/trans isomerism with respect to H.Oh yes! I missed that one.Can u please point out the rest that I've got wrong? & ill draw them out.You'll save me a lot of time.Cuz we also have to draw each isomer.
 
& 1,2-dibromcyclodecene also has cis/trans.I just didnt know how to draw it.
 
ChemDoodle said:
On the first C there is H & CH3 & on the second C there is H & CH2CH2CH3.
So there is cis/trans isomerism with respect to H.Oh yes! I missed that one.Can u please point out the rest that I've got wrong? & ill draw them out.You'll save me a lot of time.Cuz we also have to draw each isomer.

That won't really help, but can you see another compound that has the name 2-(something)ene, perhaps?


ChemDoodle said:
& 1,2-dibromcyclodecene also has cis/trans.I just didnt know how to draw it.

What does the name cyclodecene imply to you?
 
Ok,so i checked each and every one again & the one that i missed is 2-pentene.Is there any other one i missed?
Cyclodecene is a cycle of 10 C & with one double bond.But i just couldn't draw the cis/trans representation..I was thinking maybe the trans rep. should be two cycles instead of the one 10C cycle?
 
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ChemDoodle said:
Ok,so i checked each and every one again & the one that i missed is 2-pentene.Is there any other one i missed?
Cyclodecene is a cycle of 10 C & with one double bond.But i just couldn't draw the cis/trans representation..I was thinking maybe the trans rep. should be two cycles instead of the one 10C cycle?

No, that's your lot. Both (E) and (Z) cyclodecenes are one ring, except in one the olefin is cis and the other, trans; just like you've been doing for all the other compounds. How are you drawing your 10-membered ring?
 
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