Webb. C 2 is diamagnetic because all of its electrons are paired. c. O 2 is paramagnetic because it has two unpaired electrons, one in each of its p* orbitals. d. NO has an odd number of … WebApply molecular orbital theory to determine which molecule is diamagnetic. a) CO b) B2 c) O2 d) None of the above (all are paramagnetic) Expert Solution. ... Concept introduction: ... Use MO theory to predict the bond order and the number of unpaired electrons in the super-oxide ion, , and the peroxide ion, . ...
Answered: Complete the MO diagram (below) to… bartleby
WebJul 7, 2024 · For this we will start at the atomic orbitals and construct a molecular orbital (MO) diagram to be sure. We find that since C2 has no unpaired electrons, it is diamagnetic. ... Why CoF6 3 is paramagnetic but co CN 6’3 is diamagnetic justify it? In 3- configuration of Co(III) is 3d6. It has 4 unpaired electrons in its d-orbitals. … WebYou'll get a detailed solution from a subject matter expert that helps you learn core concepts. Question: According to MO theory, what is the bond order of the species with the following MO diagram? Is it paramagnetic or diamagnetic? o*25 *Is 11 - 1s 00, does not exist 0 0.5, paramagnetic O 0.5, diamagnetic O 1.0, paramagnetic 01.0, diamagnetic. black cats replica
NO is paramagnetic and NO+ is diamagnetic..justify using MO
WebMay 15, 2024 · 2. gives a misleading impression. It shows that all the electrons in oxygen are paired, so oxygen should be diamagnetic. Yet oxygen is paramagnetic. The correct explanation comes from Molecular Orbital theory. The atomic orbitals of the. O. atoms overlap to form the σ and π orbitals of the. O. WebOxygen molecule O 2: The electronic configuration of oxygen (z=8) in the ground state is 1s 22s 22p 4. Each oxygen atom has 8 electrons, hence in O 2 molecule there are 16 electrons. Therefore, the electronic configuration of O 2 is as follows : O 2:KK(σ 2s) 2(σ 2s∙) 2(π 2px) 2=(π 2py)2(π 2px) 1=(π 2py∙)1. The molecular orbital energy ... WebA: Molecular orbital diagram helps to explain chemical bonding in molecules. It shows the number of…. Q: Use the MO diagram (below) to calculate the bond order for OF". Op Os. A: Given that : We have to use the MO diagram of OF- to calculate its bond order. Q: Jse the MO diagram (below) to calculate th bond order for CS. black cats reps