3. For each of the species PCl, PCl+ and PCl-, use the MO method to (i) write the valence-electron configuration. Find the bond order and decide whether the species is paramagnetic.
3. For each of the species PCl, PCl+ and PCl-, use the MO method to (i)...
#27. Draw a MO diagram for NO. Which of the following statements is incorrect? a) NO has 11 valence electrons b) The electron configuration is (o2s)2(o2s")2(o2p)2(t2p)(T2p) c) MO theory predicts the lone electron to reside on nitrogen d) NO is paramagnetic e) The bond order-3 #28, which of the following molecules has dipole-dipole intermolecular- interactions? a) CH4 b) CO2 c) CH30CH3 d) Cl2 e) NaCl.
Name MOLECULAR ORBITAL THEORY 1. Following species are given: 0:2. 03. 02.02.02 a. For each species draw an MO diagram and fill in all the electrons. Use the energy diagram for Oz. b. Determine the Bond order of the species c. Determine if the species are paramagnetic or diamagnetic 2. Carbon monoxide has one of the strongest covalent bonds. Show with MO theory why this is the case. 3. The molecule HF has a single bond between H and F....
Complete the following table using the subshell electron configuration method. A. Species Electron Configuration Number of Valence electrons Ca, Calcium As, Arsenic Mn, Manganese B) Species Electron Configuration Cd, Cadmium Te, Tellurium Br, Bromide ion
Use the MO diagram provided below to answer the following questions: • What is the bond order for C2?_[Select] • Is C2 paramagnetic or diamagnetic? [Select] • What is the bond order for C2?_(Select] • Is C2 paramagnetic or diamagnetic?_(Select] • What is the bond order for C2?_(Select] • Is C2 paramagnetic or diamagnetic?_ (Select] • Which of the three has the longest bond? (Select] • Which of the three has the strongest bond? _ Select] Without 28 -2p mixing...
3 Give the abbreviated electron configuration for each of the following: Se Mo Cr^3+ Pt I^-
A species has the following MO configuration: (σ1s)2(σ1s*)2(σ2s)2(σ2s*)2(σ2p)2(π2p)2 The substance is: A. Paramagnetic with one unpaired electron B. Two unpaired electrons C. Three unpaired electrons D. Four unpaired electrons E. Diamagnetic
please answer question 7 using question 5 and the molecular orbital diagram given. 5. Prepare a molecular orbital diagram for BN. You may consider valence orbitals only. Label the atomic orbitals for B and N with the appropriate potential energy. Decide which orbitals have the correct symmetry, orientation, and potential energies to interact (see the handout provided during class). Label the valence atomic orbitals with the appropriate potential energy. Should s-p mixing be considered for BN? How will the MO...
Write orbital diagram for Co2+. Use the buttons at the top of the tool to add orbitals. Click within the orbital to add electrons. Predict whether Co2+ will be paramagnetic or diamagnetic. Write the electron configuration for N3−. Express your answer in condensed form, in order of increasing orbital energy. For example [He]2s22p2, would be entered as [He]2s^22p^2. Write orbital diagram for N3−. Use the buttons at the top of the tool to add orbitals. Click within the orbital to...
5 Points) Draw the MO whether each molecule is paramagnetic or diamagnetic and why. Define HOMO and LUMO. What are the HOMO and LUMO for each molecule? diagrams for Li2 and 2. Give the bond order for each. State 6-
2. Write the MO electronic configuration for the valence electrons only of the ff. ions : Indicate the magnetic behavior and calculate the bond order. Label the HOMO and the LUMO. a) 02 b) N2" (12 pts. )