![Schematic of the 'O2' molecular orbital diagram. The figure explains... | Download Scientific Diagram Schematic of the 'O2' molecular orbital diagram. The figure explains... | Download Scientific Diagram](https://www.researchgate.net/publication/272098835/figure/fig3/AS:273907110379538@1442315952921/Schematic-of-the-O2-molecular-orbital-diagram-The-figure-explains-the-nature-of-the.png)
Schematic of the 'O2' molecular orbital diagram. The figure explains... | Download Scientific Diagram
57.: In which of the following ionisation processes, the bond order has increased and the magnetic behaviour has changed (a) NO to NO+ (b) O2 to O2+ (c) N2 to N2+ (d)
![SOLVED: Compare the relative stability of the following species and indicate their magnetic properties (that is, diamagnetic or paramagnetic): O2, O2^+, O2^- (superoxide ion), O2^2- (peroxide ion). SOLVED: Compare the relative stability of the following species and indicate their magnetic properties (that is, diamagnetic or paramagnetic): O2, O2^+, O2^- (superoxide ion), O2^2- (peroxide ion).](https://cdn.numerade.com/ask_previews/217ce9c0-3c8b-48b8-b0f4-6e9d84142fd7_large.jpg)
SOLVED: Compare the relative stability of the following species and indicate their magnetic properties (that is, diamagnetic or paramagnetic): O2, O2^+, O2^- (superoxide ion), O2^2- (peroxide ion).
![compare the relative stabilities of O2- and N2+and comment on their magnetic behaviour - Chemistry - Chemical Bonding and Molecular Structure - 13191415 | Meritnation.com compare the relative stabilities of O2- and N2+and comment on their magnetic behaviour - Chemistry - Chemical Bonding and Molecular Structure - 13191415 | Meritnation.com](https://s3mn.mnimgs.com/img/shared/content_ck_images/ck_5c51005cd5a61.jpg)
compare the relative stabilities of O2- and N2+and comment on their magnetic behaviour - Chemistry - Chemical Bonding and Molecular Structure - 13191415 | Meritnation.com
![How B2,O2, NO, NO2,ClO2 paramagnetic If I take B2 then it has 10 electrons so should be dimag - Chemistry - Chemical Bonding and Molecular Structure - 10867657 | Meritnation.com How B2,O2, NO, NO2,ClO2 paramagnetic If I take B2 then it has 10 electrons so should be dimag - Chemistry - Chemical Bonding and Molecular Structure - 10867657 | Meritnation.com](https://s3mn.mnimgs.com/img/shared/ck-files/ck_5863615b83dbd.png)
How B2,O2, NO, NO2,ClO2 paramagnetic If I take B2 then it has 10 electrons so should be dimag - Chemistry - Chemical Bonding and Molecular Structure - 10867657 | Meritnation.com
![Write the molecular orbital electronic configuration of N2 and O2 molecules with the of molecular orbital theory. Predict its magnetic behaviour also. Write the molecular orbital electronic configuration of N2 and O2 molecules with the of molecular orbital theory. Predict its magnetic behaviour also.](https://toppr-doubts-media.s3.amazonaws.com/images/9164288/6216310c-d8e2-4b5f-b396-241d40ccbe0c.jpg)
Write the molecular orbital electronic configuration of N2 and O2 molecules with the of molecular orbital theory. Predict its magnetic behaviour also.
![9.10: Molecular Orbital Theory Predicts that Molecular Oxygen is Paramagnetic - Chemistry LibreTexts 9.10: Molecular Orbital Theory Predicts that Molecular Oxygen is Paramagnetic - Chemistry LibreTexts](https://chem.libretexts.org/@api/deki/files/141969/imageedit_2_3565053295.png?revision=1)
9.10: Molecular Orbital Theory Predicts that Molecular Oxygen is Paramagnetic - Chemistry LibreTexts
![use molecular orbital theory to explain the magnetic behaviour and bond order of O2 Negative and O2+ molecules - Chemistry - Chemical Bonding and Molecular Structure - 13154833 | Meritnation.com use molecular orbital theory to explain the magnetic behaviour and bond order of O2 Negative and O2+ molecules - Chemistry - Chemical Bonding and Molecular Structure - 13154833 | Meritnation.com](https://s3mn.mnimgs.com/img/shared/content_ck_images/ck_e1ae1e1444ba1845472e9683a35d8bd6.png)