Concept explainers
a)
Interpretation:
How to synthesize 1-pentyne from acetylene using any alkyl halide with four or fewer number of carbons is to be shown.
Concept introduction:
Terminal
To state:
How to synthesize 1-pentyne from acetylene using any alkyl halide with four or fewer number of carbons.
b)
Interpretation:
How to synthesize 3-hexyne from acetylene using any alkyl halide with four or fewer number of carbons is to be shown.
Concept introduction:
Terminal alkynes can be converted into their alkynides by treating with NaNH3 in liquid NH3. The alkynides when treated with alkyl halides with the required number of carbons yield the higher alkyne needed. Acetylene has two acidic hydrogens. Both hydrogens can be replaced by alkyl groups through this process.
To state:
How to synthesize 3-hexyne from acetylene using any alkyl halide with four or fewer number of carbons.
c)
Interpretation:
How to synthesize 4-methyl-1-pentene from acetylene using any alkyl halide with four or fewer number of carbons is to be shown.
Concept introduction:
Terminal alkynes can be converted into their alkynides by treating with NaNH3 in liquid NH3. The alkynides when treated with alkyl halides with the required number of carbons yield the higher alkyne needed. The alkyne can be reduced to the corresponding
To state:
How to synthesize 4-methyl-1-pentene from acetylene using any alkyl halide with four or fewer number of carbons.
d)
Interpretation:
How to synthesize 4-octanone from acetylene using any alkyl halide with four or fewer number of carbons is to be shown.
Concept introduction:
Terminal alkynes can be converted into their alkynides by treating with NaNH3 in liquid NH3. The alkynides when treated with alkyl halides with the required number of carbons yield the higher alkyne needed. The alkyne undergoes hydration when treated with dilute H3SO4 in the presence of HgSO4 to yield an enol which tautomerizes to a
To state:
How to synthesize 4-octanone from acetylene using any alkyl halide with four or fewer number of carbons.
e)
Interpretation:
How to synthesize hexanal from acetylene using any alkyl halide with four or fewer number of carbons is to be shown.
Concept introduction:
Terminal alkynes can be converted into their alkynides by treating with NaNH3 in liquid NH3. The alkynides when treated with alkyl halides with the required number of carbons yield the higher alkynes needed. The alkynes yield enols with OH on terminal carbon in hydroboration-oxidation reaction which tautomerize to yield
To state:
How to synthesize hexanal from acetylene using any alkyl halide with four or fewer number of carbons.
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Chapter 9 Solutions
ORGANIC CHEMISTRY-EBOOK>I<
- The number of imaginary replicas of a system of N particlesA) can never become infiniteB) can become infiniteC) cannot be greater than Avogadro's numberD) is always greater than Avogadro's number.arrow_forwardElectronic contribution to the heat capacity at constant volume A) is always zero B) is zero, except for excited levels whose energy is comparable to KT C) equals 3/2 Nk D) equals Nk exp(BE)arrow_forwardPlease correct answer and don't used hand raitingarrow_forward
- Calculate the packing factor of CaTiO3. It has a perovskite structure. Data: ionic radii Co²+ = 0.106 nm, Ti4+ = 0.064 nm, O² = 0.132 nm; lattice constant is a = 2(rTi4+ + ro2-). Ca2+ 02- T14+ Consider the ions as rigid spheres. 1. 0.581 or 58.1% 2. -0.581 or -58.1 % 3. 0.254 or 25.4%arrow_forwardGeneral formula etherarrow_forwardPlease provide the retrosynthetic analysis and forward synthesis of the molecule on the left from the starting material on the right. Please include hand-drawn structures! will upvote! Please correct answer and don't used hand raitingarrow_forward
- Please provide the retrosynthetic analysis and forward synthesis of the molecule on the left from the starting material on the right. Please include hand-drawn structures! will upvote!arrow_forward(please correct answer and don't used hand raiting) Please provide the retrosynthetic analysis and forward synthesis of the molecule on the left from the starting material on the right. Please include hand-drawn structures! will upvote!arrow_forwardCaTiO3 has a perovskite structure. Calculate the packing factor.Data: ionic radii Co+2 = 0.106 nm, Ti+4 = 0.064 nm, O-2 = 0.132 nm; lattice constant is a = 2(rTi4+ + rO-2).(a) 0.581(b) -0.581(c) 0.254(d) -0.254arrow_forward
- In the initial linear section of the stress-strain curve of a metal or alloy. Explain from the point of view of atomic structure?(a) No, the atomic level properties of the material can never be related to the linear section.(b) The elastic zone is influenced by the strength of the bonds between atoms.(c) The stronger the bond, the less rigid and the lower the Young's Modulus of the material tested.(d) The stronger the bond, the less stress is necessary to apply to the material to deform it elastically.arrow_forwardThe degree of polymerization of polytetrafluoroethylene (Teflon) is 7500 (mers/mol). If all polymer chains have equal length, state the molecular weight of the polymer and the total number of chains in 1000 g of the polymer(a) 50 000 g/mol; 0.03·1020 chains(b) 100 000 g/mol; 1.03·1020 chains(c) 750 000 g/mol; 8.03·1020 chainsarrow_forwardIn natural rubber or polyisoprene, the trans isomer leads to a higher degree of crystallinity and density than the cis isomer of the same polymer, because(a) it is more symmetrical and regular.(b) it is less symmetrical.(c) it is irregular.arrow_forward
Organic ChemistryChemistryISBN:9781305580350Author:William H. Brown, Brent L. Iverson, Eric Anslyn, Christopher S. FootePublisher:Cengage Learning