32. Draw the ground state orbital diagrams that represent the following elements or ions. a. 02-...
Give the condensed ground state electron configuration for the following elements or ions. Cr3+ Sn Draw the ground state orbital diagrams that represent the following elements or ions. O2- Se Using only periodic trends (not exact values), arrange the following atoms in order of increasing atomic radius: P, As, S, F. Consider S, Cl, and K and their most common ions. List the atoms in order of increasing size, using only periodic trends (not exact values). List the ions in...
Which of the orbital diagrams represent(s) the ground state electron configuration of an oxygen cation, O? Choose one or more: OA B. 1s 2s 20 1s 2s Which of the orbital diagrams represent(s) an excited state nitrogen atom? Choose one or more: Which of the orbital diagrams represent(s) a violation of Hund's rule? Choose one or more DA OB 25 22 OD. 1s 2s 2p 22
Portions of orbital diagrams representing ground-state electron configurations of certain elements are shown below. Use these to answer questions 9 and 10. ______Identify which orbital diagram violates the Pauli Exclusion Principle. A. A B. B C. C D. D _____Identify which orbital diagram violates Hund's rule. A. A B. B C. C D. D
10. Which of the following orbital diagrams are not possible for a ground state electron configuration? Explain why? ls 2s b. l s 2s 2p 1s 2s d. ls ls 2s Page 4 of 6
[6] (a) Write an orbital diagram for the ground state of Magnesium (Mg) and Phosphorous (P). (Marks = 1) [6] (b) Which of the following elements would be expected to be paramagnetic or diamagnetic and why? (Marks = 1) Magnesium (Mg) and Phosphorous (P) [6] (a) Write an orbital diagram for the ground state of Magnesium (Mg) and Phosphorous (P) Marks-I) [6] (b) Which of the following elements would be expected to be paramagnetic or diamagnetic and why? (Marks 1)...
8. For the following atoms, write the ground-state orbital diagrams, the electron configurations, and the condensed electron configurations. Finally, state the number of unpaired electrons. (a) Oxygen (b) Neon (c) Titanium (d) Manganese (e) Gallium
2) Draw the Molecular Orbital diagrams (Frost circle) of Benzene and cyclobutadiene in the ground state. Specify whether the molecule is aromatic/antiaromatic a) Benzene aromatic/antiaromatic (4+1) aromatic/antiaromatic (4+1) b) Cyclobutadiene 2) Draw the Molecular Orbital diagrams (Frost circle) of Benzene and cyclobutadiene in the ground state. Specify whether the molecule is aromatic/antiaromatic a) Benzene aromatic/antiaromatic (4+1) aromatic/antiaromatic (4+1) b) Cyclobutadiene
31. Give the condensed ground state electron configuration for the following elements or ions. a. Cr+ b. Sn
Which of the orbital diagrams represent(s) an excited-state nitrogen atom? Choose one or more: 1 2p A 1s 11 2p B. 2s 1s C 1 2p 2s 1s D. 2p 2s 1s Part 2 (1 point) Which of the orbital diagrams represent(s) an excited-state nitrogen atom? Choose one or more: A. 2p 2s 1s 111 2p B. 2s 1s O C. 2p 2s 1s O D. 2P 2s 1s <11/15> SOF15 QUESTIONS COMPLETED Type here to search
Write out the orbital diagrams for the ground-state electron arrangement for oxygen, fluorine, and carbon.