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(a)
Interpretation:
Whether the given name describes a single stereoisomer unambiguously is to be determined and the name using R and S designations for the chiral centers is to be written if the name describes a single stereoisomer.
Concept introduction:
For disubstituted cycloalkanes, cis isomers are the ones in which the two substituents lie on the same side of the ring, while trans isomers are the ones in which they lie on the opposite side of the ring.
A stereocenter is an atom with the property in that interchanging any two of its attached groups produces a different stereoisomer. A tetrahedral stereocenter is called a chiral center when it is bonded to four different groups. The four substituents attached to the chiral center are prioritized according to their
Each stereoisomer is described by a single name. For more than one stereoisomers, more than one names are written.
If there are two or more distinct structures possible for a given single name, then it suggests that the given name does not describe a single stereoisomer unambiguously.
If there is only one structure possible for a given single name, then it suggests that the given name describes a single stereoisomer unambiguously.
(b)
Interpretation:
Whether the given name describes a single stereoisomer unambiguously is to be determined and the name using R and S designations for the chiral centers is to be written if the name describes a single stereoisomer.
Concept introduction:
For disubstituted cycloalkanes, cis isomers are the ones in which the two substituents lie on the same side of the ring, while trans isomers are the ones in which they lie on the opposite side of the ring.
A stereocenter is an atom with the property in that interchanging any two of its attached groups produces a different stereoisomer. A tetrahedral stereocenter is called a chiral center when it is bonded to four different groups. The four substituents attached to the chiral center are prioritized according to their atomic numbers. The substituent atom having the greater atomic number has higher priority. When writing the IPUAC name, the R or S designation is written in parenthesis for each asymmetric carbon atom, and hyphens are used to separate those designations from the rest of the IUPAC name.
Each stereoisomer is described by a single name. For more than one stereoisomers, more than one names are written.
If there are two or more distinct structures possible for a given single name, then it suggests that the given name does not describe a single stereoisomer unambiguously.
If there is only one structure possible for a given single name, then it suggests that the given name describes a single stereoisomer unambiguously.
(c)
Interpretation:
Whether the given name describes a single stereoisomer unambiguously is to be determined and the name using R and S designations for the chiral centers is to be written if the name describes a single stereoisomer.
Concept introduction:
For disubstituted cycloalkanes, cis isomers are the ones in which the two substituents lie on the same side of the ring, while trans isomers are the ones in which they lie on the opposite side of the ring.
A stereocenter is an atom with the property in that interchanging any two of its attached groups produces a different stereoisomer. A tetrahedral stereocenter is called a chiral center when it is bonded to four different groups. The four substituents attached to the chiral center are prioritized according to their atomic numbers. The substituent atom having the greater atomic number has higher priority. When writing the IPUAC name, the R or S designation is written in parenthesis for each asymmetric carbon atom, and hyphens are used to separate those designations from the rest of the IUPAC name.
Each stereoisomer is described by a single name. For more than one stereoisomers, more than one names are written.
If there are two or more distinct structures possible for a given single name, then it suggests that the given name does not describe a single stereoisomer unambiguously.
If there is only one structure possible for a given single name, then it suggests that the given name describes a single stereoisomer unambiguously.
(d)
Interpretation:
Whether the given name describes a single stereoisomer unambiguously is to be determined and the name using R and S designations for the chiral centers is to be written if the name describes a single stereoisomer.
Concept introduction:
Whether the given name describes a single stereoisomer unambiguously is to be determined and the name using R and S designations for the chiral centers is to be written if the name describes a single stereoisomer.
Concept introduction:
For disubstituted cycloalkanes, cis isomers are the ones in which the two substituents lie on the same side of the ring, while trans isomers are the ones in which they lie on the opposite side of the ring.
A stereocenter is an atom with the property in that interchanging any two of its attached groups produces a different stereoisomer. A tetrahedral stereocenter is called a chiral center, when it is bonded to four different groups. The four substituents attached to the chiral center are prioritized according to their atomic numbers. The substituent atom having the greater atomic number has the higher priority. When writing the IPUAC name, the R or S designation is written in parenthesis for each asymmetric carbon atom, and hyphens are used to separate those designations from the rest of the IUPAC name.
Each stereoisomer is described by a single name. For more than one stereoisomers, more than one names are written.
If there are two or more distinct structures possible for a given single name, then it suggests that the given name does not describe a single stereoisomer unambiguously.
If there is only one structure possible for a given single name, then it suggests that the given name describes a single stereoisomer unambiguously.
(e)
Interpretation:
Whether the given name describes a single stereoisomer unambiguously is to be determined and the name using R and S designations for the chiral centers is to be written if the name describes a single stereoisomer.
Concept introduction:
Whether the given name describes a single stereoisomer unambiguously is to be determined and the name using R and S designations for the chiral centers is to be written if the name describes a single stereoisomer.
Concept introduction:
For disubstituted cycloalkanes, cis isomers are the ones in which the two substituents lie on the same side of the ring, while trans isomers are the ones in which they lie on the opposite side of the ring.
A stereocenter is an atom with the property in that interchanging any two of its attached groups produces a different stereoisomer. A tetrahedral stereocenter is called a chiral center when it is bonded to four different groups. The four substituents attached to the chiral center are prioritized according to their atomic numbers. The substituent atom having the greater atomic number has the higher priority. When writing the IPUAC name, the R or S designation is written in parenthesis for each asymmetric carbon atom and hyphens are used to separate those designations from the rest of the IUPAC name.
Each stereoisomer is described by a single name. For more than one stereoisomers, more than one names are written.
If there are two or more distinct structures possible for a given single name, then it suggests that the given name does not describe a single stereoisomer unambiguously.
If there is only one structure possible for a given single name, then it suggests that the given name describes a single stereoisomer unambiguously.
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Chapter C Solutions
Organic Chemistry: Principles And Mechanisms: Study Guide/solutions Manual (second)
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- The predominant components of our atmosphere are N₂, O₂, and Ar in the following mole fractions: χN2 = 0.780, χO2 = 0.21, χAr = 0.01. Assuming that these molecules act as ideal gases, calculate ΔGmix, ΔSmix, and ΔHmix when the total pressure is 1 bar and the temperature is 300 K.arrow_forwarddG = Vdp - SdT + μA dnA + μB dnB + ... so that under constant pressure and temperature conditions, the chemical potential of a component is the rate of change of the Gibbs energy of the system with respect to changing composition, μJ = (∂G / ∂nJ)p,T,n' Using first principles prove that under conditions of constant volume and temperature, the chemical potential is a measure of the partial molar Helmholtz energy (μJ = (∂A / ∂nJ)V,T,n')arrow_forwardThe vapor pressure of dichloromethane at 20.0 °C is 58.0 kPa and its enthalpy of vaporization is 32.7 kJ/mol. Estimate the temperature at which its vapor pressure is 66.0 kPa.arrow_forward
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