What is the name for this molecule?

What is the name for this molecule? 3-heptyne 3-heptene 3-hexyne 3-hexene

The iupac name of the compound will be hex-3-yne or 3-hexyne. By marking number of carbon in the given compound, it was found that triple bond comes at third position and there are total 6 carbon in the compound. So it will have Hex as a prefix and as it contains triple bond so it will have yne as a suffix and as the triple bond is at third position, so it will be hex-3-yne or 3-hexyne.

if i did my research right, the answer should be: 3-hexyne. hope this helps and do correct me if i’m wrong! :3

he is correct Explanation:

Option (b) is the correct answer. Explanation: A hydrocarbon that contains atleast one double bond is known as an alkene. Their general formula is . Since the given hydrocarbon chain has seven carbon atoms so, a prefix “hept” will be added before the name of alkene. Also, a double bond is placed at position 2 on moving from left to right. Therefore, we can conclude that name of the given compound is 2-heptene.

1) HCl contains the Cl^- which is a good nucleophile 2) 2-methyl-2- heptanol > 2-heptanol > 1-heptanol 3) see image attached Explanation: If the dehydration of alcohols is carried out using HCl, the chloride ion which is a good nucleophile will attack the substrate to yield an undesirable product. The dehydration of alcohols is an E1 reaction. Recall that the ease of E1 reaction increases in the order 3°> 2°> 1°. Hence, 2-methyl-2- heptanol forms a tertiary carbocation intermediate during dehydration and has the greatest ease of dehydration. The three products formed during the dehydration of 3,3-dimethyl-2-butanol are shown in the image attached. Two out of the three are formed by rearrangement reactions.

Answer 6

1-heptyne Explanation:

Answer 7

66 Step-by-step explanation: 11 – 9 + 8^2 11 – 9 + 64 = 66

four Explanation: Recall that the hydrogenation of 1-heptyne, 2-heptyne, and 3-heptyne  is an addition reaction. The hydrogen is added across the triple bond in the presence of palladium serving as the catalyst. Note that 1-heptyne and 2-heptyne do not exist as geometric isomers hence they yield one corresponding hydrocarbon each. However, 3-heptyne exhibits geometric isomerism. As a result of this, 3-heptyne yields cis and trans products making a total of four seven-carbon hydrocarbons produced.

Hello! For solving the equation   the correct answer would be… infinite solutions Hope this helps!!

Infinite solutions Step-by-step explanation: When you distribute the equation on the right, you get: 6x-8=2(3x-4) 6x-8=6x-8 These two equations are the same, so you can use any value to make this equation true. Infinite solutions is your answer Hope this helps!