(a)
Interpretation:
For each step of the given unimolecular elimination
Concept introduction:
An atom with partial or full negative charge is called an electron-rich site whereas an atom with partial or full positive charge is called an electron-poor site. An electron-rich atom has a lone pair of electrons whereas an electron-poor atom lacks an octet. In an elementary step, electrons tend to flow from an electron-rich site to an electron-poor site.
(b)
Interpretation:
Appropriate curved arrows are to be drawn to show the bond formation and bond breaking that occur in each step of the given unimolecular elimination
Concept introduction:
In an elementary step, electrons tend to flow from an electron-rich site to an electron-poor site. In the first step of unimolecular elimination
(c)
Interpretation:
Each step of the given unimolecular elimination
Concept introduction:
An elementary step in which a proton is transferred from an electron-poor site to an electron-rich site and one bond is broken and another is formed simultaneously is called the proton transfer step. An elementary step in which only single bond is broken is called the heterolysis step.
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Chapter 7 Solutions
Organic Chemistry: Principles And Mechanisms: Study Guide/solutions Manual (second)
- Please correct answer and don't used hand raitingarrow_forwardPlease correct answer and don't used hand raitingarrow_forwardFor each molecule below, predict whether the molecule would be expected to show aromatic character or not. Explain your answer in each case. These molecule are planner. [THREE] a. b. HIN: (14) annulene C. OH d. :0: :0: +arrow_forward
- Drawing Instructions: Draw structures corresponding to each of the given names. a. Draw: 2-ethyl-1,3-butadiene b. Name:arrow_forwardPlease correct answer and don't used hand raitingarrow_forwardс. d. СнЗ Сизена=-4=4 Cla H Eget3 над f. e. H-C=C-CH3 + 285 → H-C=C-CH3+2не H-C=C-CH3 + Nanta» g+ CH₂ CH₂-G = G-C₁₂-G=CH₂ + 2HI→ H H H ALarrow_forward
- The IR (infrared) spectra of two pure compounds (0.010 M compound A in solvent and 0.010 M compound B in solvent) are given. The pathlength of the cell is 1.00 cm. The y-axis in the spectra is transmittance rather than absorption, so that the wavenumbers at which there is a dip in the curve correspond to absorption peaks. A mixture of A and B in unknown concentrations gave a percent transmittance of 49.8% at 2976 cm¹ and 44.9% at 3030 cm-1 Wavenumber 0.010 M A 0.010 M B Unknown 3030 cm-1 35.0% 93.0% 44.9% 2976 cm-¹ 76.0% 42.0% 49.8% What are the concentrations of A and B in the unknown sample? Transmittance (%) 100 90 80 70 60 50 40 2976 cm-1 30 3030 cm-1 20 Pure A 10 Pure B 0 3040 2990 Wavenumber (cm-1) 2940 2890arrow_forwardsynthesize 1-propyne starting with propane.arrow_forwardstarting reactant IV target + enantiomer 1) BH3, THF 2) H₂O2, NaOH, H₂O 1) Hg(OAc)2, THF, H₂O (or ROH) 2) NaBH4 D2, Pt/C H₂, Pt/C D2, Lindlar catalyst or Ni₂B H₂, Lindlar catalyst or Ni₂B NaNH, OH/H₂O or SH/H₂S H₂O/H₂O 1) 03 2) H₂O 1) 03 2) (CH3)2S HBr, w/ROOR HBr, (cold, dark, no ROOR) Naº, NH3(e) NBS (trace Br2), light HgSO4, H2SO4, H₂O Naº, ROH 1) Sia₂BH, THF 2) H2O2, NaOH, H₂O H3O/ROH or H₂O*/RSH OR/ROH or SR/RSH 1) OsO4, NMO 2) NaHSO3, H₂O 1) MCPBA (peroxy acid) 2) H3O, H2O (or ROH or RSH) KMnO4 (warm, concentrated) Br₂/H₂O Br₂, heat or light Br2, cold, dark, no peroxides (CH3)3CO(CH3)3COH ROH or RSH H₂O KMnO4/OH (cold, dilute)arrow_forward
- Nonearrow_forwardIndicate whether the ability of atoms to associate with each other depends on electron affinity.arrow_forward1) Write the reduction half reactions and find the reduction potential for each pair.a. Zn/Zn2+b. Cu/Cu2+c. Al/Al3+d. Ag/Ag1+ 2) For each of the following voltaic cells, identify the anode, cathode, write the standard cell notation/diagram, and predict the cell potential.arrow_forward
Organic Chemistry: A Guided InquiryChemistryISBN:9780618974122Author:Andrei StraumanisPublisher:Cengage Learning