(a)
Interpretation:
Draw the possible structures of ethers with the molecular formula
Concept introduction:
Structural isomers are also called as constitutional isomers. These isomers can be defined as the molecules with same molecular formula and different structural formula. They are molecules in which the bonded atoms have different bonding with each other although the number of molecules is same. Identical molecules are molecules which have same structural formulae and same molecular formulae.
(b)
Interpretation:
Draw the possible structures of ethers with the molecular formula
Concept introduction:
Structural isomers are also called as constitutional isomers. These isomers can be defined as the molecules with same molecular formula and different structural formula. They are molecules in which the bonded atoms have different bonding with each other although the number of molecules is same. Identical molecules are molecules which have same structural formulae and same molecular formulae.
(c)
Interpretation:
Draw the possible structures of ethers with the molecular formula
Concept introduction:
Structural isomers are also called as constitutional isomers. These isomers can be defined as the molecules with same molecular formula and different structural formula. They are molecules in which the bonded atoms have different bonding with each other although the number of molecules is same. Identical molecules are molecules which have same structural formulae and same molecular formulae.
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GENERAL CHEMISTRY-MOD.MASTERINGCHEM.
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- a. How many Lewis structures have the formula C4H11N? 10 b. In how many of the structures is the nitrogen atom attached to only one carbon? c. How many of them have carbon-carbon double bonds? d. How many of them have carbon-nitrogen double bonds? e. How many of them have rings? f. How many of the structures are capable of hydrogen bonding? g. How many of the structures contain a carbon atom attached to three other carbons? h. How many of the structures contain a nitrogen atom attached to three carbons? Varrow_forwardHow does the structure of an alcohol differ from an ether? Describe how an aldehyde differs in structure from a ketone. Thiols are compounds which resemble alcohols, except that the oxygen atom is replaced by a sulfur atom. Draw the analogous thiol for the four carbon alcohol in Table 1. Describe the structural difference between carboxylic acids and esters. Are ethers polar molecules? Would you expect ethers to have higher or lower boiling points than alkanes (circle one)? Explain. Pentane (an alkane) has a boiling point of 36 °C. Does the data agree with your prediction? explain why this could be the casearrow_forward2. Draw the mechanism of the bromination of acetylene: 3. Draw the structures of the following: a. 3-bromo-3,4-dimethyl-1-hepten-5-yne b. Acetylene c. 1-ethynyl-2-methylcyclohexanearrow_forward
- aldetyae ketones 59. The structural formula of the compound below is H-C OH HO-C-H HČ-OH Gycerol Ethylene Glycol 1,2 ethane diol 60. This compound is an example of CH, CH CH, CH, C O-CH CH, ethers esters aminesarrow_forwardChemistry describe the product's functional group 1. O3 2. DMS 3. Na2Cr207/H3O* two carboxylic acids one ketone and one aldehyde one ketone and one carboxylic acid two ketonesarrow_forward1. Explain the following - why stearic acid has higher melting point than decanoic acid. - why benzoic acid has higher melting point than stearic acid. - why salicylic acid has higher melting point than benzoic acid. - why octane has a higher melting point than isooctane. - why 2,2,3,3-tetramethylbutane has the highest melting point among the three isomers of C8H18.arrow_forward
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