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Chapter 15: Q15.4P (page 678)

Carbon bonds to many elements other than itself.(a) Name six elements that commonly bond to carbon in inorganic compounds. (b) Which of these elements are heteroatoms?(c) Which of these elements are more electronegative than carbon? Less electronegative?(d) How does bonding of carbon to heteroatoms increase the number of organic compounds?

Short Answer

Expert verified

The answer is,

(a) S, O, N, Ca, C, H

(b) S, O, N, Ca

(c) S, O, and N, are more electronegative and Ca, and H is less electronegative.

(d) By the formation of a large number of compounds.

Step by step solution

01

 Carbon

Carbon is an atom of atomic number six. It has four valence electrons. Organic compounds are compounds containing major carbon atoms bonded to hydrogen atoms, oxygen atoms, nitrogen atoms, etc. The carbon atom is hence a major substituent for the universe.

02

Subpart (a)

The S, O, N, Ca, C, and H are the elements that commonly bond to carbon in inorganic compounds.

03

Subpart (b)

The S, O, N and Ca are the atoms which are heteroatoms. Heteroatoms are the atoms found in inorganic compounds other than carbon and hydrogen.

04

Subpart (c)

The S, O, and N, are more electronegative atoms and Ca, and H is less electronegative atoms compared to the carbon atom.

05

Subpart (d)

The formation of different bonds within carbon and heteroatoms leads to the formation of a large number of compounds.

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Most popular questions from this chapter

Explain how a polarimeter works and what it measures.

Question:Ibuprofen is one of the most common anti-inflammatory drugs.

(a) Identify the functional group(s) and chiral center(s) in ibuprofen.

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Some of the most useful compounds for organic synthesis are Grignard reagents (general formula , where X is a halogen), which are made by combining an alkyl halide, , with. They are used to change the carbon skeleton of a starting carbonyl compound in a reaction similar to that with :

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(c) There are often two (or more) combinations of Grignard reagent and carbonyl compound that will give the same product. Choose another pair of reactants to give the product in (a).

(d) What ±OH group at the end of the carbon chain?

(e) What Grignard carbonyl compound must react with a Grignard reagent to yield a product with the reagent and carbonyl compound would you use to prepare 2-methyl-2-butanol?

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