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(a)
Interpretation:
Structural formula for the given halogenated hydrocarbon has to be drawn.
Concept Introduction:
The derivative of alkane with halogen instead of one or more hydrogen atoms is known as halogenated alkane. If the same is present in cycloalkane, then it is known as halogenated cycloalkane. They are product of reaction between alkane/cycloalkane with halogens.
Similar to the alkyl groups, the halogen is also treated as substituents present on the carbon chain. They are called as fluoro-, chloro-, bromo-, and iodo-.
If the carbon chain contains both alkyl and halogen, they both are considered of equal ranks. The numbering is done in a way so that the substituents get the least number, whether it is an alkyl or a halo group.
In IUPAC names, the groups that are present on the carbon chain are written in alphabetical order.
Common names:
Halogenated alkanes are also named as
Structural formula for halogenated hydrocabons:
From the IUPAC name or common name that is given for the halogenated hydrocarbon, the structural formula can be drawn. The parent hydrocarbon is present in the end when considering IUPAC name and in common name, the parent hydrocarbon is present in the first part as an alkyl group.
(b)
Interpretation:
Structural formula for the given halogenated hydrocarbon has to be drawn.
Concept Introduction:
The derivative of alkane with halogen instead of one or more hydrogen atoms is known as halogenated alkane. If the same is present in cycloalkane, then it is known as halogenated cycloalkane. They are product of reaction between alkane/cycloalkane with halogens.
IUPAC nomenclature for halogenated alkanes/cycloalkanes:
Similar to the alkyl groups, the halogen is also treated as substituents present on the carbon chain. They are called as fluoro-, chloro-, bromo-, and iodo-.
If the carbon chain contains both alkyl and halogen, they both are considered of equal ranks. The numbering is done in a way so that the substituents get the least number, whether it is an alkyl or a halo group.
In IUPAC names, the groups that are present on the carbon chain are written in alphabetical order.
Common names:
Halogenated alkanes are also named as alkyl halides. These are not IUPAC names. They are common names. In a common name, two parts are present. First part is the name of the hydrocarbon (alkyl group). Second part gives the halogen present in the compound. The halogen is considered as though it is present as an ion even though no ions are present.
Structural formula for halogenated hydrocabons:
From the IUPAC name or common name that is given for the halogenated hydrocarbon, the structural formula can be drawn. The parent hydrocarbon is present in the end when considering IUPAC name and in common name, the parent hydrocarbon is present in the first part as an alkyl group.
(c)
Interpretation:
Structural formula for the given halogenated hydrocarbon has to be drawn.
Concept Introduction:
The derivative of alkane with halogen instead of one or more hydrogen atoms is known as halogenated alkane. If the same is present in cycloalkane, then it is known as halogenated cycloalkane. They are product of reaction between alkane/cycloalkane with halogens.
IUPAC nomenclature for halogenated alkanes/cycloalkanes:
Similar to the alkyl groups, the halogen is also treated as substituents present on the carbon chain. They are called as fluoro-, chloro-, bromo-, and iodo-.
If the carbon chain contains both alkyl and halogen, they both are considered of equal ranks. The numbering is done in a way so that the substituents get the least number, whether it is an alkyl or a halo group.
In IUPAC names, the groups that are present on the carbon chain are written in alphabetical order.
Common names:
Halogenated alkanes are also named as alkyl halides. These are not IUPAC names. They are common names. In a common name, two parts are present. First part is the name of the hydrocarbon (alkyl group). Second part gives the halogen present in the compound. The halogen is considered as though it is present as an ion even though no ions are present.
Structural formula for halogenated hydrocabons:
From the IUPAC name or common name that is given for the halogenated hydrocarbon, the structural formula can be drawn. The parent hydrocarbon is present in the end when considering IUPAC name and in common name, the parent hydrocarbon is present in the first part as an alkyl group.
(d)
Interpretation:
Structural formula for the given halogenated hydrocarbon has to be drawn.
Concept Introduction:
The derivative of alkane with halogen instead of one or more hydrogen atoms is known as halogenated alkane. If the same is present in cycloalkane, then it is known as halogenated cycloalkane. They are product of reaction between alkane/cycloalkane with halogens.
IUPAC nomenclature for halogenated alkanes/cycloalkanes:
Similar to the alkyl groups, the halogen is also treated as substituents present on the carbon chain. They are called as fluoro-, chloro-, bromo-, and iodo-.
If the carbon chain contains both alkyl and halogen, they both are considered of equal ranks. The numbering is done in a way so that the substituents get the least number, whether it is an alkyl or a halo group.
In IUPAC names, the groups that are present on the carbon chain are written in alphabetical order.
Common names:
Halogenated alkanes are also named as alkyl halides. These are not IUPAC names. They are common names. In a common name, two parts are present. First part is the name of the hydrocarbon (alkyl group). Second part gives the halogen present in the compound. The halogen is considered as though it is present as an ion even though no ions are present.
Structural formula for halogenated hydrocabons:
From the IUPAC name or common name that is given for the halogenated hydrocarbon, the structural formula can be drawn. The parent hydrocarbon is present in the end when considering IUPAC name and in common name, the parent hydrocarbon is present in the first part as an alkyl group.
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Chapter 1 Solutions
Organic And Biological Chemistry
- Use the reaction coordinate diagram to answer the below questions. Type your answers into the answer box for each question. (Watch your spelling) Energy A B C D Reaction coordinate E A) Is the reaction step going from D to F endothermic or exothermic? A F G B) Does point D represent a reactant, product, intermediate or transition state? A/ C) Which step (step 1 or step 2) is the rate determining step? Aarrow_forward1. Using radii from Resource section 1 (p.901) and Born-Lande equation, calculate the lattice energy for PbS, which crystallizes in the NaCl structure. Then, use the Born-Haber cycle to obtain the value of lattice energy for PbS. You will need the following data following data: AH Pb(g) = 196 kJ/mol; AHƒ PbS = −98 kJ/mol; electron affinities for S(g)→S¯(g) is -201 kJ/mol; S¯(g) (g) is 640kJ/mol. Ionization energies for Pb are listed in Resource section 2, p.903. Remember that enthalpies of formation are calculated beginning with the elements in their standard states (S8 for sulfur). The formation of S2, AHF: S2 (g) = 535 kJ/mol. Compare the two values, and explain the difference. (8 points)arrow_forwardIn the answer box, type the number of maximum stereoisomers possible for the following compound. A H H COH OH = H C Br H.C OH CHarrow_forward
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- Draw the product(s) formed when alkene A is reacted with ozone, followed by Zn and H₂O. If no second product is formed, do not draw a structure in the second box. Higher Molecular Weight Product A Lower Molecular Weight Product draw structure ... draw structure ...arrow_forwardRank A - D in order of increasing rate of reaction with H2 and Pd/C. ب ب ب ب A B с Which option correctly ranks the alkenes in order of increasing rate of reaction with H₂ and Pd/C? О Barrow_forwardDraw the product of the following Sharpless epoxidation, including stereochemistry. Click the "draw structure" button to launch the drawing utility. -OH (CH3)3C-OOH Ti[OCH(CH3)2]4 (+)-DET draw structure ... Guidarrow_forwardarrow_back_iosSEE MORE QUESTIONSarrow_forward_ios
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