Which of the following compounds can exhibit geometric isomerism (has cis-trans isomers)? Type the letter of...
Main Menu Contents Grades Course Contents >> ... > Homework 11 > Homework 11-6 Which of the following compounds can exhibit geometric isomerism (has cis-trans isomers)? 0 Type the letter of the compounds that can exhibit geometric isomerism in the box, capitalization and order do not matter (A For alkenes, both carbons in the C=C must have two different substituents. For cylcic compounds, there must be at least 2 arrange the substituents in two different ways. Submit Answer Incorrect. Tries...
2. Which of the following compounds exhibit cis/trans Isomer CIS and transforms of the compounds that do exhibit Isomers s exhibit cis/trans isomerism? Explain why. Draw the a) Methylcyclobutane b) 3-ethyl-3-hexene c) 1-ethyl-3-methylcyclopentane d) 2,3-dimethylpentane e) 2,3-dichloro-2-hexene f) 2-butyne
The complex [Co(NEt3)4(NCS)cl] can form cis and trans isomers and can also exhibit linkage isomerism. Draw both cis and trans forms and show how the linkage isomerism arises.
Which of these alkenes exhibit cis-trans isomerism? Select all that apply. Which of the following alkenes exhibit cis-trans isomerism?
Which of the following compounds can exhibit cis-trans isomerism? + [Mn(H 20) 6]3 a. [Ni(CN)2Cl 212- O b. [Cu(CO) 5Br] + O C. [MnCIBr 3] 2- Od.
Which of the following compounds show cis-trans isomerism? Check all that apply.
25 For the following pairs of compounds, indicate if they are cis-trans isomers or the same compound. If they are cis-trans isomers, indicate which is the cis isomer and which is the trans isomer and explain why. a. and b. and and
8 Classify the following pair of compounds as constitutional isomers, geometric isomers, the same compound, or not isomeric. CI CSC CH2CH2CH3 cr CH2CH2CH3 0000 constitutional isomers geometric or cis/trans isomers the same compound not isomeric
3.6: Which of the following compounds can exist as cis–trans isomers? Draw each cis–trans pair. (a) CH3CH=CH2 (b) (CH3)2C=CHCH3 (c) ClCH=CHCl (d) CH3CH2CH=CHCH3 (e) CH3CH2CH=C(Br)CH3 (f) 3-Methylhept-3-ene The answer is c, d, e ,f but I'm not sure how it works
Which type of biomolecule can have cis/trans isomers?