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11 Nov 2019
parts 3 and 4
P 1.35 P 1.36 (write both "bond-line and 'skeletal' representations) Write the Lewis (dot) structure of the following species. Show all non-zero formal charges. If applicable, write other resonance forms of the structure. a. CHSH b. CHCHBr c. CHCH^+ d. NF e. SiF f. CH g. CH^- h. AlCl i. HSO (Draw one with octet rule obeyed and one with lowest formal charges.) Write a correct molecular orbital diagram for each of the following. Compute the bond order of each species. a. H b. Li c. Li^- d. O e. F^+ Which pairs of atomic orbitals have the correct geometry to overlap and form a sigma bond? Assume that the x-axis is the internuclear axis. Although it is usually important, don't worry about energy differences. Just focus only on geometry of the orbitals. a. 1s and 2s b. 2p_x and 2p_x c. 2p_y and 2p_y d. 2p_z and 1s e. 2p_x and 2p_y
parts 3 and 4
P 1.35 P 1.36 (write both "bond-line and 'skeletal' representations) Write the Lewis (dot) structure of the following species. Show all non-zero formal charges. If applicable, write other resonance forms of the structure. a. CHSH b. CHCHBr c. CHCH^+ d. NF e. SiF f. CH g. CH^- h. AlCl i. HSO (Draw one with octet rule obeyed and one with lowest formal charges.) Write a correct molecular orbital diagram for each of the following. Compute the bond order of each species. a. H b. Li c. Li^- d. O e. F^+ Which pairs of atomic orbitals have the correct geometry to overlap and form a sigma bond? Assume that the x-axis is the internuclear axis. Although it is usually important, don't worry about energy differences. Just focus only on geometry of the orbitals. a. 1s and 2s b. 2p_x and 2p_x c. 2p_y and 2p_y d. 2p_z and 1s e. 2p_x and 2p_y
Tod ThielLv2
26 Sep 2019