2. Consider the O; molecule (a) Indicate the ground state orbital diagram, the ground state electron...
6.(18ps) (a) 6pts. What is the ground state electron configuration and orbital diagram of Nb(41)? Is this paramagnetic or diamagnetic? (b) 4pts. The following is an excited state configuration of a neutral atom: 1s2s22p 3s!4p2 4s 7s Identify the element and write its ground state electronic configuration. Is this excited state diamagnetic or paramagnetic? Explain. 8pts, Write the ground state electron configuration of each of the following ions: c. (iv) Se (34) (ii) In2'(49) (ii) Pd*(46) (i) Zr (40)
6.(18ps) (a) 6pts. What is the ground state electron configuration and orbital diagram of Nb(41)? Is this paramagnetic or diamagnetic? (b) 4pts. The following is an excited state configuration of a neutral atom: 1s 2s 2p 3s'4p24s'7s2 Identify the element and write its ground state electronic configuration. Is this excited state diamagnetic or paramagnetic? Explain. c. Spts. Write the ground state electron configuration of each of the following ions: (1) Zr?*(40) (ii) In?*(49) Ciii) Pd**(46) (iv) Se?(34)
6.(18ps) (a) 6pts. What is the ground state electron configuration and orbital diagram of Nb(41)? Is this paramagnetic or diamagnetic? (b) 4pts. The following is an excited state configuration of a neutral atom: 1s²2s²2pº3s'4p2 45'7s Identify the element and write its ground state electronic configuration. Is this excited state diamagnetic or paramagnetic? Explain. c. 8pts, Write the ground state electron configuration of each of the following ions: (ii) In2+(49) (iii) Pd4+(46) (i) Zr2+(40) (iv) Se?(34)
Use the molecular orbital theory to complete this table. Molecule me X Ground state electron configuration Bond order Magnetism Number F2 (01) 2 (01) 2 (021) (021) 2 (02) (Tap) 2 (720°) 2 paramagnetic diamagnetic Number Fz (Os) 2 (03°) 2 (02) 2 (023°) 2 (02) 2 (T2) 2 (1720°) 1 paramagnetic diamagnetic 1 2 3 4 5 Drag a number into each of the blank boxes above. Incorrect.
The ground state of H2 has the molecular-orbital
configuration (σgb)2.
In addition to the ground state there are excited states that
have the following configuration:
(pic)
Predict which of these states would be highest in energy and
which would be lowest.
Explain your reasoning.
Would you expect the lowest excited state of H2 to be
paramagnetic or diamagnetic?
1. The ground state of H2 has the molecular-orbital configurationo). In addition to the ground state there are excited states that have...
Molecular Orbital Model 3. Draw the molecular orbital energy level diagram for the following substances, and complete the tables. Write the ground state molecular orbital electron contiguration | Molecule Enetsy Level Diagram including each atom's energy levels) Molecular orbital clectron contig Bond Order include calculation Paramagnetic or diamagnetic b. N: Molecular orbital electron config Bond Order Paramagnetic or diamagnetic C. Based on the bond orders of N, and N.*, which has the stronger bond? 251 d. Ne Molecular orbital electron...
Provide the molecular orbital diagram, predict the bond order, and state whether the molecule or ion is diamagnetic or paramagnetic. Assume that s/p orbital mixing does not occur. Na2 Mg2 C2 (O2) Br2 e)
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
hj electron(s) in the e ls orbital, orbital, and the overall bond order is Question 22 (1 point) Consider the CF molecule. In molecular orbital theory, there is a net sigma bond order of A and a net pi bond order of Is the molecule paramagnetic or diamagnetic? 10 of 22 questions saved Submit Qulz MacBook Air
hj electron(s) in the e ls orbital, orbital, and the overall bond order is Question 22 (1 point) Consider the CF molecule. In...
1. (30 pts) For germanium (Ge) atom: 1) Write the shorthand ground state electron configuration and orbital diagram for Ge. Indicate the magnetic property (diamagnetic or paramagnetic) of the atom. 2) Write a set of quantum numbers (n. l, m, m.) for one of the germanium valence electrons. 3) Based on the above orbital diagram, predict one possible germanium cation charges. Explain the reasons of your predictions