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  Molecular Orbital Theory
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• Molecular orbital theory
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Molecular orbital theory

In chemistry, molecular orbital (MO) theory is a method for determining molecular structure in which electrons are not assigned to individual bonds between atoms, but are treated as moving under the influence of the nuclei in the whole molecule. The spatial and energetic properties of electrons within atoms are fixed by quantum mechanics to form orbitals that contain these electrons. While atomic orbitals contain electrons ascribed to a single atom, molecular orbitals, which surround a number of atoms in a molecule, contain valence electrons between atoms. Molecular orbital theory, which was proposed in the early twentieth century, revolutionized the study of bonding by approximating the positions of bonded electrons—the molecular orbitals—as Linear Combinations of Atomic Orbitals (LCAO). These approximations are now made by applying the Density Functional Theory (DFT) or Hartree–Fock (HF) models to the Schrödinger equation.

Quantitative applications

In this theory, each molecule has a set of molecular orbitals, in which it is assumed that the molecular orbital wave function ψ_j can be written as a simple weighted sum of the n constituent atomic orbitals χ_i, according to the following equation:

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This page contains text from Wikipedia, the Free Encyclopedia - https://wn.com/Molecular_orbital_theory

Valence bond theory

In chemistry, valence bond (VB) theory is one of two basic theories, along with molecular orbital (MO) theory, that were developed to use the methods of quantum mechanics to explain chemical bonding. It focuses on how the atomic orbitals of the dissociated atoms combine to give individual chemical bonds when a molecule is formed. In contrast, molecular orbital theory has orbitals that cover the whole molecule.

History

In 1916, G. N. Lewis proposed that a chemical bond forms by the interaction of two shared bonding electrons, with the representation of molecules as Lewis structures. In 1927 the Heitler–London theory was formulated which for the first time enabled the calculation of bonding properties of the hydrogen molecule H₂ based on quantum mechanical considerations. Specifically, Walter Heitler determined how to use Schrödinger's wave equation (1926) to show how two hydrogen atom wavefunctions join together, with plus, minus, and exchange terms, to form a covalent bond. He then called up his associate Fritz London and they worked out the details of the theory over the course of the night. Later, Linus Pauling used the pair bonding ideas of Lewis together with Heitler–London theory to develop two other key concepts in VB theory: resonance (1928) and orbital hybridization (1930). According to Charles Coulson, author of the noted 1952 book Valence, this period marks the start of "modern valence bond theory", as contrasted with older valence bond theories, which are essentially electronic theories of valence couched in pre-wave-mechanical terms. Resonance theory was criticized as imperfect by Soviet chemists during the 1950s.

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This page contains text from Wikipedia, the Free Encyclopedia - https://wn.com/Valence_bond_theory

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7:54

Valence Bond Theory, Hybrid Orbitals, and Molecular Orbital Theory

• Order: Reorder
• Duration: 7:54
• Uploaded Date: 10 Jan 2016
• views: 1911223

Attention! This video about molecular orbitals is much better: https://www.youtube.com/watch?v=I2k61JMk71M Alright, let's be real. Nobody understands molecular...

Attention! This video about molecular orbitals is much better: https://www.youtube.com/watch?v=I2k61JMk71M Alright, let's be real. Nobody understands molecular orbitals when they first take chemistry. You just pretend you do, and then in your next course you learn them a little better. And then a little better than that. And five years later you sort of understand them. So don't get discouraged! Just watch this for a head start and do your best. Watch the whole General Chemistry playlist: http://bit.ly/ProfDaveGenChem Study for the AP Chemistry exam with me: https://bit.ly/ProfDaveAPChem Organic Chemistry Tutorials: http://bit.ly/ProfDaveOrgChem Biochemistry Tutorials: http://bit.ly/ProfDaveBiochem Biology Tutorials: http://bit.ly/ProfDaveBio Classical Physics Tutorials: http://bit.ly/ProfDavePhysics1 Modern Physics Tutorials: http://bit.ly/ProfDavePhysics2 Mathematics Tutorials: http://bit.ly/ProfDaveMaths EMAIL► [email protected] PATREON► http://patreon.com/ProfessorDaveExplains Check out "Is This Wi-Fi Organic?", my book on disarming pseudoscience! Amazon: https://amzn.to/2HtNpVH Bookshop: https://bit.ly/39cKADM Barnes and Noble: https://bit.ly/3pUjmrn Book Depository: http://bit.ly/3aOVDlT

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Attention! This video about molecular orbitals is much better: https://www.youtube.com/watch?v=I2k61JMk71M Alright, let's be real. Nobody understands molecular orbitals when they first take chemistry. You just pretend you do, and then in your next course you learn them a little better. And then a little better than that. And five years later you sort of understand them. So don't get discouraged! Just watch this for a head start and do your best. Watch the whole General Chemistry playlist: http://bit.ly/ProfDaveGenChem Study for the AP Chemistry exam with me: https://bit.ly/ProfDaveAPChem Organic Chemistry Tutorials: http://bit.ly/ProfDaveOrgChem Biochemistry Tutorials: http://bit.ly/ProfDaveBiochem Biology Tutorials: http://bit.ly/ProfDaveBio Classical Physics Tutorials: http://bit.ly/ProfDavePhysics1 Modern Physics Tutorials: http://bit.ly/ProfDavePhysics2 Mathematics Tutorials: http://bit.ly/ProfDaveMaths EMAIL► [email protected] PATREON► http://patreon.com/ProfessorDaveExplains Check out "Is This Wi-Fi Organic?", my book on disarming pseudoscience! Amazon: https://amzn.to/2HtNpVH Bookshop: https://bit.ly/39cKADM Barnes and Noble: https://bit.ly/3pUjmrn Book Depository: http://bit.ly/3aOVDlT

• published: 10 Jan 2016
• views: 1911223

21:36

Molecular Orbital Theory - Bonding & Antibonding MO - Bond Order

• Order: Reorder
• Duration: 21:36
• Uploaded Date: 28 Dec 2020
• views: 1097248

This chemistry video tutorial provides a basic introduction into molecular orbital theory. It describes the formation of bonding and antibonding molecular orbi...

This chemistry video tutorial provides a basic introduction into molecular orbital theory. It describes the formation of bonding and antibonding molecular orbitals from the combination of atomic orbitals. It explains how to calculate the bond order of homonuclear diatomic molecule as well as heteronuclear diatomic molecules. It also contains examples and practice problems of homonuclear and heteronuclear molecular ions. Access The Full 1 Hour Video: https://www.patreon.com/MathScienceTutor Direct Link to The Full Video: https://bit.ly/3VY2Mpv Chemistry PDF Worksheets: https://www.video-tutor.net/chemistry-basic-introduction.html _________________________________ Access The Full Video on YouTube: https://www.youtube.com/watch?v=MdobdIhf_dU Join The YouTube Membership Program: https://bit.ly/46xaQTR Chemistry 1 Final Exam Review: https://www.youtube.com/watch?v=5yw1YH7YA7c

https://wn.com/Molecular_Orbital_Theory_Bonding_Antibonding_Mo_Bond_Order

This chemistry video tutorial provides a basic introduction into molecular orbital theory. It describes the formation of bonding and antibonding molecular orbitals from the combination of atomic orbitals. It explains how to calculate the bond order of homonuclear diatomic molecule as well as heteronuclear diatomic molecules. It also contains examples and practice problems of homonuclear and heteronuclear molecular ions. Access The Full 1 Hour Video: https://www.patreon.com/MathScienceTutor Direct Link to The Full Video: https://bit.ly/3VY2Mpv Chemistry PDF Worksheets: https://www.video-tutor.net/chemistry-basic-introduction.html _________________________________ Access The Full Video on YouTube: https://www.youtube.com/watch?v=MdobdIhf_dU Join The YouTube Membership Program: https://bit.ly/46xaQTR Chemistry 1 Final Exam Review: https://www.youtube.com/watch?v=5yw1YH7YA7c

• published: 28 Dec 2020
• views: 1097248

11:05

Drawing Molecular Orbital Diagrams

• Order: Reorder
• Duration: 11:05
• Uploaded Date: 16 Aug 2017
• views: 396301

https://wn.com/Drawing_Molecular_Orbital_Diagrams

• published: 16 Aug 2017
• views: 396301

1:05:37

13. Molecular Orbital Theory

• Order: Reorder
• Duration: 1:05:37
• Uploaded Date: 03 Aug 2017
• views: 244848

MIT 5.111 Principles of Chemical Science, Fall 2014 View the complete course: https://ocw.mit.edu/5-111F14 Instructor: Catherine Drennan Why do some atoms read...

MIT 5.111 Principles of Chemical Science, Fall 2014 View the complete course: https://ocw.mit.edu/5-111F14 Instructor: Catherine Drennan Why do some atoms readily form bonds with each other and other atoms don’t? Using molecular orbital theory, we can rationalize why molecular hydrogen is an abundant molecule whereas molecular helium is not. If you want to power your starship with dilithium crystals, you should watch this lecture. License: Creative Commons BY-NC-SA More information at http://ocw.mit.edu/terms More courses at http://ocw.mit.edu

https://wn.com/13._Molecular_Orbital_Theory

MIT 5.111 Principles of Chemical Science, Fall 2014 View the complete course: https://ocw.mit.edu/5-111F14 Instructor: Catherine Drennan Why do some atoms readily form bonds with each other and other atoms don’t? Using molecular orbital theory, we can rationalize why molecular hydrogen is an abundant molecule whereas molecular helium is not. If you want to power your starship with dilithium crystals, you should watch this lecture. License: Creative Commons BY-NC-SA More information at http://ocw.mit.edu/terms More courses at http://ocw.mit.edu

• published: 03 Aug 2017
• views: 244848

45:53

9.5 Molecular Orbital Theory | General Chemistry

• Order: Reorder
• Duration: 45:53
• Uploaded Date: 05 Nov 2021
• views: 147788

Chad provides a comprehensive lesson on Molecular Orbital Theory. The lesson begins by showing how overlap of atomic orbitals results in both bonding and antib...

Chad provides a comprehensive lesson on Molecular Orbital Theory. The lesson begins by showing how overlap of atomic orbitals results in both bonding and antibonding molecular orbitals. Constructive overlap between atomic orbitals results in a lower energy, bonding molecular orbital, while destructive overlap between atomic orbitals results in a higher energy, antibonding molecular orbital. The Molecular Orbital diagrams of H2 and He2 are both presented and used to explain why H2 exists and He2 does not. It is also shown how to calculate bond order from a molecular orbital diagram (formula) and how for many species this is consistent with the number of bonds in the Lewis structure. The Molecular Orbital diagrams for homonuclear diatomic molecules of the second period are then presented. The Molecular Orbital diagrams of O2, F2, and Ne2 are presented and the corresponding bond orders calculated. Paramagnetic and diamagnetic are defined and it is shown that a species is paramagnetic if it has unpaired electrons and diamagnetic if all of its electrons are paired. The MO diagrams are then used to explain why Ne2 does not exist (bond order = 0) and why O2 is paramagnetic, something that wouldn't be predicted by the Lewis structure. The MO diagram for N2 is then presented and it is shown that the energies of the sigma 2p and pi 2p molecular orbitals are inverted due to sp mixing in the MO diagram for Li2, Be2, B2, C2, and N2. The bond order for N2 is calculated (it equals 3) which corresponds nicely with the triple bond present in the Lewis structure. I've embedded this playlist as a course on my website with all the lessons organized by chapter in a collapsible menu and much of the content from the study guide included on the page. Check this lesson out at https://www.chadsprep.com/chads-general-chemistry-videos/molecular-orbital-theory-made-easy/ If you want all my study guides, quizzes, final exam reviews, and practice exams, check out my General Chemistry Master Course (free trial available) at https://www.chadsprep.com/genchem-youtube 00:00 Lesson Introduction 01:09 Constructive & Destructive Overlap 05:26 Sigma 1s & 1s* 14:30 Sigma 2p & 2p* 19:58 Pi 2p & 2p* 24:34 Molecular Orbital Diagram for H2 26:29 Molecular Orbital Diagram for He2 27:17 How to Calculate Bond Order from Molecular Orbital Diagram 30:58 Molecular Orbital Diagram for O2, F2, Ne2 35:22 Paramagnetic vs Diamagnetic 39:54 Molecular Orbital Diagram for N2 https://www.chadsprep.com/ https://courses.chadsprep.com/pages/pre-health-courses

https://wn.com/9.5_Molecular_Orbital_Theory_|_General_Chemistry

Chad provides a comprehensive lesson on Molecular Orbital Theory. The lesson begins by showing how overlap of atomic orbitals results in both bonding and antibonding molecular orbitals. Constructive overlap between atomic orbitals results in a lower energy, bonding molecular orbital, while destructive overlap between atomic orbitals results in a higher energy, antibonding molecular orbital. The Molecular Orbital diagrams of H2 and He2 are both presented and used to explain why H2 exists and He2 does not. It is also shown how to calculate bond order from a molecular orbital diagram (formula) and how for many species this is consistent with the number of bonds in the Lewis structure. The Molecular Orbital diagrams for homonuclear diatomic molecules of the second period are then presented. The Molecular Orbital diagrams of O2, F2, and Ne2 are presented and the corresponding bond orders calculated. Paramagnetic and diamagnetic are defined and it is shown that a species is paramagnetic if it has unpaired electrons and diamagnetic if all of its electrons are paired. The MO diagrams are then used to explain why Ne2 does not exist (bond order = 0) and why O2 is paramagnetic, something that wouldn't be predicted by the Lewis structure. The MO diagram for N2 is then presented and it is shown that the energies of the sigma 2p and pi 2p molecular orbitals are inverted due to sp mixing in the MO diagram for Li2, Be2, B2, C2, and N2. The bond order for N2 is calculated (it equals 3) which corresponds nicely with the triple bond present in the Lewis structure. I've embedded this playlist as a course on my website with all the lessons organized by chapter in a collapsible menu and much of the content from the study guide included on the page. Check this lesson out at https://www.chadsprep.com/chads-general-chemistry-videos/molecular-orbital-theory-made-easy/ If you want all my study guides, quizzes, final exam reviews, and practice exams, check out my General Chemistry Master Course (free trial available) at https://www.chadsprep.com/genchem-youtube 00:00 Lesson Introduction 01:09 Constructive & Destructive Overlap 05:26 Sigma 1s & 1s* 14:30 Sigma 2p & 2p* 19:58 Pi 2p & 2p* 24:34 Molecular Orbital Diagram for H2 26:29 Molecular Orbital Diagram for He2 27:17 How to Calculate Bond Order from Molecular Orbital Diagram 30:58 Molecular Orbital Diagram for O2, F2, Ne2 35:22 Paramagnetic vs Diamagnetic 39:54 Molecular Orbital Diagram for N2 https://www.chadsprep.com/ https://courses.chadsprep.com/pages/pre-health-courses

• published: 05 Nov 2021
• views: 147788

5:51

CHEMISTRY 101: Molecular Orbital Theory, Bond order, bond strength, magnetic properties

• Order: Reorder
• Duration: 5:51
• Uploaded Date: 07 Nov 2015
• views: 632453

In this example problem, we show how to fill a molecular orbital diagram for a diatomic molecule and use molecular bond theory to compare bond order, bond stren...

In this example problem, we show how to fill a molecular orbital diagram for a diatomic molecule and use molecular bond theory to compare bond order, bond strength, and magnetic properties (paramagnetic or diamagnetic). Use molecular orbital theory to determine: a.) the bond order of N2 b.) whether N2 is paramagnetic or diamagnetic c.) order of increasing bond strength for N2, N22-, N2+

https://wn.com/Chemistry_101_Molecular_Orbital_Theory,_Bond_Order,_Bond_Strength,_Magnetic_Properties

In this example problem, we show how to fill a molecular orbital diagram for a diatomic molecule and use molecular bond theory to compare bond order, bond strength, and magnetic properties (paramagnetic or diamagnetic). Use molecular orbital theory to determine: a.) the bond order of N2 b.) whether N2 is paramagnetic or diamagnetic c.) order of increasing bond strength for N2, N22-, N2+

• published: 07 Nov 2015
• views: 632453

14:19

⚡⚡MOLECULAR ORBITAL THEORY💥💥 ഇപ്പൊ BULB കത്തി💥💥

• Order: Reorder
• Duration: 14:19
• Uploaded Date: 12 Jun 2022
• views: 118131

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• published: 12 Jun 2022
• views: 118131

13:19

Molecular Orbital MO Theory Simplified for Sigma and Pi Bonds

• Order: Reorder
• Duration: 13:19
• Uploaded Date: 07 Mar 2021
• views: 130158

http://Leah4sci.com/MOtheory presents: Molecular Orbital Theory for Sigma and Pi Bonds Need help with Orgo? Download my free guide ’10 Secrets to Acing Organic...

http://Leah4sci.com/MOtheory presents: Molecular Orbital Theory for Sigma and Pi Bonds Need help with Orgo? Download my free guide ’10 Secrets to Acing Organic Chemistry’ HERE: http://leah4sci.com/orgo-ebook/ In this video, I’ll walk you through the most basic and foundational concepts behind Molecular Orbital theory for both sigma and pi bonds. You’ll learn the difference in bonding and antibonding molecular orbitals through a simple analogy and also how they compare on an energy diagram to the atomic orbitals of the bonding atoms. Additionally, you’ll learn to depict molecular orbitals, both bonding and antibonding, with simple drawings. In this video: [0:13] Introduction to Molecular Orbital Theory [2:29] Review of Energy Diagram of H2 Gas [6:04] Difference Between the Antibonding and Bonding MO [7:10] Molecular Orbitals for Pi Bonds Links & Resources Mentioned In This Video: Organic Chemistry Basics http://Leah4sci.com/OrgoBasics Resonance Structures in Organic Chemistry http://Leah4sci.com/Resonance Molecular Orbital Theory http://Leah4sci.com/MOtheory This is part of the Molecular Orbital Theory Mini Series. Catch the entire MO Theory Video Series on my website at http://leah4sci.com/MOtheory Follow along with your semester by using my Orgo Syllabus Companion: http://leah4sci.com/syllabus For more in-depth review including practice problems and explanations, come join my online membership site the organic chemistry study hall: http://leah4sci.com/join For private online tutoring visit my website: http://leah4sci.com/organic-chemistry For questions and comments, find me on social media here: Facebook: https://www.facebook.com/Leah4Sci Twitter: https://twitter.com/Leah4Sci Instagram: https://www.instagram.com/leah4sci/ Pinterest: http://www.pinterest.com/leah4sci/

https://wn.com/Molecular_Orbital_Mo_Theory_Simplified_For_Sigma_And_Pi_Bonds

http://Leah4sci.com/MOtheory presents: Molecular Orbital Theory for Sigma and Pi Bonds Need help with Orgo? Download my free guide ’10 Secrets to Acing Organic Chemistry’ HERE: http://leah4sci.com/orgo-ebook/ In this video, I’ll walk you through the most basic and foundational concepts behind Molecular Orbital theory for both sigma and pi bonds. You’ll learn the difference in bonding and antibonding molecular orbitals through a simple analogy and also how they compare on an energy diagram to the atomic orbitals of the bonding atoms. Additionally, you’ll learn to depict molecular orbitals, both bonding and antibonding, with simple drawings. In this video: [0:13] Introduction to Molecular Orbital Theory [2:29] Review of Energy Diagram of H2 Gas [6:04] Difference Between the Antibonding and Bonding MO [7:10] Molecular Orbitals for Pi Bonds Links & Resources Mentioned In This Video: Organic Chemistry Basics http://Leah4sci.com/OrgoBasics Resonance Structures in Organic Chemistry http://Leah4sci.com/Resonance Molecular Orbital Theory http://Leah4sci.com/MOtheory This is part of the Molecular Orbital Theory Mini Series. Catch the entire MO Theory Video Series on my website at http://leah4sci.com/MOtheory Follow along with your semester by using my Orgo Syllabus Companion: http://leah4sci.com/syllabus For more in-depth review including practice problems and explanations, come join my online membership site the organic chemistry study hall: http://leah4sci.com/join For private online tutoring visit my website: http://leah4sci.com/organic-chemistry For questions and comments, find me on social media here: Facebook: https://www.facebook.com/Leah4Sci Twitter: https://twitter.com/Leah4Sci Instagram: https://www.instagram.com/leah4sci/ Pinterest: http://www.pinterest.com/leah4sci/

• published: 07 Mar 2021
• views: 130158

5:00

बुनियाद Batch | Extra 10% Off | India Won | CSIR NET | GATE | IIT JAM | VedPrep Chem Academy

• Order: Reorder
• Duration: 5:00
• Uploaded Date: 30 Jun 2024
• views: 508

🟨 𝗙𝗼𝗿 𝗔𝗱𝗺𝗶𝘀𝘀𝗶𝗼𝗻 & 𝗢𝗻𝗹𝗶𝗻𝗲/𝗢𝗳𝗳𝗹𝗶𝗻𝗲 𝗕𝗮𝘁𝗰𝗵(IIT JAM | CSIR NET | GATE | CUET PG): https://bit.ly/44Cdmsj 💁🏻‍♂️ 𝗗𝗼𝘄𝗻𝗹𝗼𝗮𝗱 𝟭𝟬 𝐩𝐫𝐞𝐯𝐢𝐨𝐮𝐬 𝐲𝐞𝐚𝐫 𝐐𝐮𝐞𝐬𝐭𝐢𝐨𝐧 𝐏𝐚𝐩𝐞𝐫 𝐰𝐢𝐭𝐡 𝐒𝐨𝐥𝐮𝐭𝐢𝐨𝐧...

🟨 𝗙𝗼𝗿 𝗔𝗱𝗺𝗶𝘀𝘀𝗶𝗼𝗻 & 𝗢𝗻𝗹𝗶𝗻𝗲/𝗢𝗳𝗳𝗹𝗶𝗻𝗲 𝗕𝗮𝘁𝗰𝗵(IIT JAM | CSIR NET | GATE | CUET PG): https://bit.ly/44Cdmsj 💁🏻‍♂️ 𝗗𝗼𝘄𝗻𝗹𝗼𝗮𝗱 𝟭𝟬 𝐩𝐫𝐞𝐯𝐢𝐨𝐮𝐬 𝐲𝐞𝐚𝐫 𝐐𝐮𝐞𝐬𝐭𝐢𝐨𝐧 𝐏𝐚𝐩𝐞𝐫 𝐰𝐢𝐭𝐡 𝐒𝐨𝐥𝐮𝐭𝐢𝐨𝐧 | 𝗖𝗦𝗜𝗥-𝗡𝗘𝗧 | 𝗜𝗜𝗧 𝗝𝗔𝗠 | 𝗚𝗔𝗧𝗘👉 https://vedprep.com/pyq 📩 Download "VedPrep" App: https://bit.ly/vedprepapp 💁‍♂️ Follow Whatsapp Channels: https://bit.ly/48J30HP 📞 𝗙𝗼𝗿 𝗮𝗻𝘆 𝗾𝘂𝗲𝗿𝗶𝗲𝘀, 𝗳𝗲𝗲𝗹 𝗳𝗿𝗲𝗲 𝘁𝗼 𝗰𝗼𝗻𝘁𝗮𝗰𝘁 𝘂𝘀 @ 𝟵𝟭𝟯𝟲𝟱𝟵𝟳𝟮𝟰𝟰 📚 𝗕𝘂𝘆 𝗡𝗼𝘄 𝗜𝗜𝗧 𝗝𝗔𝗠 𝗖𝗵𝗲𝗺𝗶𝘀𝘁𝗿𝘆 𝗣𝗿𝗲𝘃𝗶𝗼𝘂𝘀 𝘆𝗲𝗮𝗿 𝗤𝘂𝗲𝘀𝘁𝗶𝗼𝗻𝘀 𝗪𝗶𝘁𝗵 𝗦𝗼𝗹𝘂𝘁𝗶𝗼𝗻𝘀 𝗕𝗼𝗼𝗸𝘀: https://bit.ly/478BwtX 📌 Don't forget to check out our Popular playlists: 👉 Coordination Chemistry: https://www.youtube.com/playlist?list=PLdZcCa6mtW22HTEHF8-rqOyXD-fNB7OKD 👉 Thermodynamics: https://www.youtube.com/playlist?list=PLdZcCa6mtW23oeoAOEkn9uw5rJm29Alm0 👉 Chemical Bonding: https://www.youtube.com/playlist?list=PLdZcCa6mtW22kc-ywwqY70FcCf2qObRz_ 👉 GOC: https://www.youtube.com/playlist?list=PLdZcCa6mtW22nkmvTnMO4y-5fu-kFyIOx 👉 Main Group Elements: https://www.youtube.com/playlist?list=PLdZcCa6mtW22h5DKotqt9Vkoyy5938DMr 👉 Molecular Orbital Theory: https://www.youtube.com/playlist?list=PLdZcCa6mtW23WX31mHbmyi2vOvNGKZM-O 👉 Organic Spectroscopy: https://www.youtube.com/playlist?list=PLdZcCa6mtW21HIKg00wd36u8HMjiHnA12 👉 Group Theory: https://www.youtube.com/playlist?list=PLdZcCa6mtW20yOOMkzYlK3hvJWHD6T-oq 👉 Stereochemistry: https://www.youtube.com/playlist?list=PLdZcCa6mtW207gZEnl9__pg2R9NbnGvJf 👉 Reagents and Name Reaction: https://www.youtube.com/playlist?list=PLdZcCa6mtW233hnUC42MCJjOFuX4_LTWv ✿ Check out our freshly curated previous year question papers for IIT JAM, CSIR NET, and GATE 👉 https://www.vedprep.com/pyq/ ➤ About VedPrep Chem Academy: Welcome to VedPrep Chem Academy. ‘Chem Academy’, a leading Education provider under ‘VedPrep’’ since 2011, delivers excellence in the arena of Chemistry. Our proficiency lies in the preparation M.Sc level entrance exams like CSIR NET, GATE, IIT JAM, TIFR, DU M.Sc, JNU, BHU, UPSC CS, Geo Chemist, IFS, State PSC & all Chemistry-oriented exams. Our achievements include securing the top 10 AIRs, and producing 11000+ selections from all over India. We as a YouTube channel work promisingly to deliver Chemistry in an all-around manner and increase its outstretch. Keeping in mind the needs and strengths of each and every student we include; ✔️ High-value academy content ✔️ Interactive LIVE and recorded lectures covering chemistry coursework ✔️ Memory based question solutions ✔️ Subject marathons ✔️ Exam paper analysis ✔️ Previous year questions with solutions ✔️ Generic video ✔️ Informative videos ✔️ Motivational sessions ✔️ Career counseling sessions for chemistry CSIR NET, IIT JAM, GATE ✔️ Talk with toppers & more. ✔️ Live sessions through our channel. This is just a glimpse of our exceptional journey on YouTube so far, with your love and support we will continue to shine in the future. ‘Solution to all your Chemistry hassles, unrivaled Chem Academy’. 👥 Follow VedPrep Chem Academy on Social Media: 👍 Facebook: https://facebook.com/vedprep 👍 Instagram: https://instagram.com/vedprep 👍 LinkedIn: https://linkedin.com/company/vedprep 👍 Twitter: https://twitter.com/vedprep 👍 Telegram: https://t.me/vedprepchemacademy ⏰ Subscribe to Our Other YouTube Channels: 🔔 VedPrep Chem Academy: https://youtube.com/@VedPrepChemAcademy 🔔 VedPrep Biology Academy: https://youtube.com/@VedPrepBiologyAcademy 🔔 VedPrep Maths Academy: https://youtube.com/@VedPrepMathsAcademy 🔔 VedPrep Physics Academy: https://youtube.com/@VedPrepPhysicsAcademy ➤ Contact Us: 👉 Have Any Queries? Ask Us. 🤙 Call: 9136597244 💬 WhatsApp: 9136597244 📧 Email: [email protected] 🌐 Website: https://www.vedprep.com 🎯 This Video Has the Following Terms: #Chemistry_Bole_to_ChemAcademy #VedPrepChemAcademy #VedPrep #ChemAcademy #Chemistry

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🟨 𝗙𝗼𝗿 𝗔𝗱𝗺𝗶𝘀𝘀𝗶𝗼𝗻 & 𝗢𝗻𝗹𝗶𝗻𝗲/𝗢𝗳𝗳𝗹𝗶𝗻𝗲 𝗕𝗮𝘁𝗰𝗵(IIT JAM | CSIR NET | GATE | CUET PG): https://bit.ly/44Cdmsj 💁🏻‍♂️ 𝗗𝗼𝘄𝗻𝗹𝗼𝗮𝗱 𝟭𝟬 𝐩𝐫𝐞𝐯𝐢𝐨𝐮𝐬 𝐲𝐞𝐚𝐫 𝐐𝐮𝐞𝐬𝐭𝐢𝐨𝐧 𝐏𝐚𝐩𝐞𝐫 𝐰𝐢𝐭𝐡 𝐒𝐨𝐥𝐮𝐭𝐢𝐨𝐧 | 𝗖𝗦𝗜𝗥-𝗡𝗘𝗧 | 𝗜𝗜𝗧 𝗝𝗔𝗠 | 𝗚𝗔𝗧𝗘👉 https://vedprep.com/pyq 📩 Download "VedPrep" App: https://bit.ly/vedprepapp 💁‍♂️ Follow Whatsapp Channels: https://bit.ly/48J30HP 📞 𝗙𝗼𝗿 𝗮𝗻𝘆 𝗾𝘂𝗲𝗿𝗶𝗲𝘀, 𝗳𝗲𝗲𝗹 𝗳𝗿𝗲𝗲 𝘁𝗼 𝗰𝗼𝗻𝘁𝗮𝗰𝘁 𝘂𝘀 @ 𝟵𝟭𝟯𝟲𝟱𝟵𝟳𝟮𝟰𝟰 📚 𝗕𝘂𝘆 𝗡𝗼𝘄 𝗜𝗜𝗧 𝗝𝗔𝗠 𝗖𝗵𝗲𝗺𝗶𝘀𝘁𝗿𝘆 𝗣𝗿𝗲𝘃𝗶𝗼𝘂𝘀 𝘆𝗲𝗮𝗿 𝗤𝘂𝗲𝘀𝘁𝗶𝗼𝗻𝘀 𝗪𝗶𝘁𝗵 𝗦𝗼𝗹𝘂𝘁𝗶𝗼𝗻𝘀 𝗕𝗼𝗼𝗸𝘀: https://bit.ly/478BwtX 📌 Don't forget to check out our Popular playlists: 👉 Coordination Chemistry: https://www.youtube.com/playlist?list=PLdZcCa6mtW22HTEHF8-rqOyXD-fNB7OKD 👉 Thermodynamics: https://www.youtube.com/playlist?list=PLdZcCa6mtW23oeoAOEkn9uw5rJm29Alm0 👉 Chemical Bonding: https://www.youtube.com/playlist?list=PLdZcCa6mtW22kc-ywwqY70FcCf2qObRz_ 👉 GOC: https://www.youtube.com/playlist?list=PLdZcCa6mtW22nkmvTnMO4y-5fu-kFyIOx 👉 Main Group Elements: https://www.youtube.com/playlist?list=PLdZcCa6mtW22h5DKotqt9Vkoyy5938DMr 👉 Molecular Orbital Theory: https://www.youtube.com/playlist?list=PLdZcCa6mtW23WX31mHbmyi2vOvNGKZM-O 👉 Organic Spectroscopy: https://www.youtube.com/playlist?list=PLdZcCa6mtW21HIKg00wd36u8HMjiHnA12 👉 Group Theory: https://www.youtube.com/playlist?list=PLdZcCa6mtW20yOOMkzYlK3hvJWHD6T-oq 👉 Stereochemistry: https://www.youtube.com/playlist?list=PLdZcCa6mtW207gZEnl9__pg2R9NbnGvJf 👉 Reagents and Name Reaction: https://www.youtube.com/playlist?list=PLdZcCa6mtW233hnUC42MCJjOFuX4_LTWv ✿ Check out our freshly curated previous year question papers for IIT JAM, CSIR NET, and GATE 👉 https://www.vedprep.com/pyq/ ➤ About VedPrep Chem Academy: Welcome to VedPrep Chem Academy. ‘Chem Academy’, a leading Education provider under ‘VedPrep’’ since 2011, delivers excellence in the arena of Chemistry. Our proficiency lies in the preparation M.Sc level entrance exams like CSIR NET, GATE, IIT JAM, TIFR, DU M.Sc, JNU, BHU, UPSC CS, Geo Chemist, IFS, State PSC & all Chemistry-oriented exams. Our achievements include securing the top 10 AIRs, and producing 11000+ selections from all over India. We as a YouTube channel work promisingly to deliver Chemistry in an all-around manner and increase its outstretch. Keeping in mind the needs and strengths of each and every student we include; ✔️ High-value academy content ✔️ Interactive LIVE and recorded lectures covering chemistry coursework ✔️ Memory based question solutions ✔️ Subject marathons ✔️ Exam paper analysis ✔️ Previous year questions with solutions ✔️ Generic video ✔️ Informative videos ✔️ Motivational sessions ✔️ Career counseling sessions for chemistry CSIR NET, IIT JAM, GATE ✔️ Talk with toppers & more. ✔️ Live sessions through our channel. This is just a glimpse of our exceptional journey on YouTube so far, with your love and support we will continue to shine in the future. ‘Solution to all your Chemistry hassles, unrivaled Chem Academy’. 👥 Follow VedPrep Chem Academy on Social Media: 👍 Facebook: https://facebook.com/vedprep 👍 Instagram: https://instagram.com/vedprep 👍 LinkedIn: https://linkedin.com/company/vedprep 👍 Twitter: https://twitter.com/vedprep 👍 Telegram: https://t.me/vedprepchemacademy ⏰ Subscribe to Our Other YouTube Channels: 🔔 VedPrep Chem Academy: https://youtube.com/@VedPrepChemAcademy 🔔 VedPrep Biology Academy: https://youtube.com/@VedPrepBiologyAcademy 🔔 VedPrep Maths Academy: https://youtube.com/@VedPrepMathsAcademy 🔔 VedPrep Physics Academy: https://youtube.com/@VedPrepPhysicsAcademy ➤ Contact Us: 👉 Have Any Queries? Ask Us. 🤙 Call: 9136597244 💬 WhatsApp: 9136597244 📧 Email: [email protected] 🌐 Website: https://www.vedprep.com 🎯 This Video Has the Following Terms: #Chemistry_Bole_to_ChemAcademy #VedPrepChemAcademy #VedPrep #ChemAcademy #Chemistry

• published: 30 Jun 2024
• views: 508

4:59

Molecular Orbital (MO) Diagram for O2(-)

• Order: Reorder
• Duration: 4:59
• Uploaded Date: 31 Jul 2020
• views: 212377

When two oxygen atoms overlap, the sigma(2p) molecular orbital is LOWER in energy than the pi(2p) orbitals. This different from Nitrogen, where it's the other w...

When two oxygen atoms overlap, the sigma(2p) molecular orbital is LOWER in energy than the pi(2p) orbitals. This different from Nitrogen, where it's the other way around. O2(-1) is just like regular molecular oxygen, but the extra electron causes its bond to be unstable. Its bond order is 1.5 Check me out: http://www.chemistnate.com

https://wn.com/Molecular_Orbital_(Mo)_Diagram_For_O2(_)

When two oxygen atoms overlap, the sigma(2p) molecular orbital is LOWER in energy than the pi(2p) orbitals. This different from Nitrogen, where it's the other way around. O2(-1) is just like regular molecular oxygen, but the extra electron causes its bond to be unstable. Its bond order is 1.5 Check me out: http://www.chemistnate.com

• published: 31 Jul 2020
• views: 212377

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10:39

Valence Bond Theory & Hybrid Atomic Orbitals

• Order: Reorder
• Duration: 10:39
• Uploaded Date: 07 Jan 2021
• views: 776815

This organic chemistry video tutorial provides a basic introduction into valence bond theory and hybrid atomic orbitals. It explains how to find the hybridizat...

This organic chemistry video tutorial provides a basic introduction into valence bond theory and hybrid atomic orbitals. It explains how to find the hybridization of carbon atom such as sp, sp2, and sp3. it also explains how to describe the orbitals that overlap to form a covalent bond. In addition, it explains how to determine the number of sigma and pi bonds in a molecule. Access The Full 33 Minute Video: https://www.patreon.com/MathScienceTutor Direct Link to The Full Video: https://bit.ly/3X1ImNI Organic Chemistry PDF Worksheets: https://www.video-tutor.net/orgo-chem.html ________________________________________ Join The YouTube Membership Program: https://bit.ly/46xaQTR Full 33 Minute Video on YouTube: https://www.youtube.com/watch?v=qyHMQXBkh50 Chemistry 1 Final Exam Review: https://www.youtube.com/watch?v=5yw1YH7YA7c

https://wn.com/Valence_Bond_Theory_Hybrid_Atomic_Orbitals

This organic chemistry video tutorial provides a basic introduction into valence bond theory and hybrid atomic orbitals. It explains how to find the hybridization of carbon atom such as sp, sp2, and sp3. it also explains how to describe the orbitals that overlap to form a covalent bond. In addition, it explains how to determine the number of sigma and pi bonds in a molecule. Access The Full 33 Minute Video: https://www.patreon.com/MathScienceTutor Direct Link to The Full Video: https://bit.ly/3X1ImNI Organic Chemistry PDF Worksheets: https://www.video-tutor.net/orgo-chem.html ________________________________________ Join The YouTube Membership Program: https://bit.ly/46xaQTR Full 33 Minute Video on YouTube: https://www.youtube.com/watch?v=qyHMQXBkh50 Chemistry 1 Final Exam Review: https://www.youtube.com/watch?v=5yw1YH7YA7c

• published: 07 Jan 2021
• views: 776815

7:54

Valence Bond Theory, Hybrid Orbitals, and Molecular Orbital Theory

• Order: Reorder
• Duration: 7:54
• Uploaded Date: 10 Jan 2016
• views: 1911223

Attention! This video about molecular orbitals is much better: https://www.youtube.com/watch?v=I2k61JMk71M Alright, let's be real. Nobody understands molecular...

Attention! This video about molecular orbitals is much better: https://www.youtube.com/watch?v=I2k61JMk71M Alright, let's be real. Nobody understands molecular orbitals when they first take chemistry. You just pretend you do, and then in your next course you learn them a little better. And then a little better than that. And five years later you sort of understand them. So don't get discouraged! Just watch this for a head start and do your best. Watch the whole General Chemistry playlist: http://bit.ly/ProfDaveGenChem Study for the AP Chemistry exam with me: https://bit.ly/ProfDaveAPChem Organic Chemistry Tutorials: http://bit.ly/ProfDaveOrgChem Biochemistry Tutorials: http://bit.ly/ProfDaveBiochem Biology Tutorials: http://bit.ly/ProfDaveBio Classical Physics Tutorials: http://bit.ly/ProfDavePhysics1 Modern Physics Tutorials: http://bit.ly/ProfDavePhysics2 Mathematics Tutorials: http://bit.ly/ProfDaveMaths EMAIL► [email protected] PATREON► http://patreon.com/ProfessorDaveExplains Check out "Is This Wi-Fi Organic?", my book on disarming pseudoscience! Amazon: https://amzn.to/2HtNpVH Bookshop: https://bit.ly/39cKADM Barnes and Noble: https://bit.ly/3pUjmrn Book Depository: http://bit.ly/3aOVDlT

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Attention! This video about molecular orbitals is much better: https://www.youtube.com/watch?v=I2k61JMk71M Alright, let's be real. Nobody understands molecular orbitals when they first take chemistry. You just pretend you do, and then in your next course you learn them a little better. And then a little better than that. And five years later you sort of understand them. So don't get discouraged! Just watch this for a head start and do your best. Watch the whole General Chemistry playlist: http://bit.ly/ProfDaveGenChem Study for the AP Chemistry exam with me: https://bit.ly/ProfDaveAPChem Organic Chemistry Tutorials: http://bit.ly/ProfDaveOrgChem Biochemistry Tutorials: http://bit.ly/ProfDaveBiochem Biology Tutorials: http://bit.ly/ProfDaveBio Classical Physics Tutorials: http://bit.ly/ProfDavePhysics1 Modern Physics Tutorials: http://bit.ly/ProfDavePhysics2 Mathematics Tutorials: http://bit.ly/ProfDaveMaths EMAIL► [email protected] PATREON► http://patreon.com/ProfessorDaveExplains Check out "Is This Wi-Fi Organic?", my book on disarming pseudoscience! Amazon: https://amzn.to/2HtNpVH Bookshop: https://bit.ly/39cKADM Barnes and Noble: https://bit.ly/3pUjmrn Book Depository: http://bit.ly/3aOVDlT

• published: 10 Jan 2016
• views: 1911223

56:46

14. Valence Bond Theory and Hybridization

• Order: Reorder
• Duration: 56:46
• Uploaded Date: 03 Aug 2017
• views: 127791

MIT 5.111 Principles of Chemical Science, Fall 2014 View the complete course: https://ocw.mit.edu/5-111F14 Instructor: Catherine Drennan Valence bond theory an...

MIT 5.111 Principles of Chemical Science, Fall 2014 View the complete course: https://ocw.mit.edu/5-111F14 Instructor: Catherine Drennan Valence bond theory and hybridization can be used to explain and/or predict the geometry of any atom in a molecule. In particular, the concept of hybridization is important for understanding the geometry of organic molecules. License: Creative Commons BY-NC-SA More information at http://ocw.mit.edu/terms More courses at http://ocw.mit.edu

https://wn.com/14._Valence_Bond_Theory_And_Hybridization

MIT 5.111 Principles of Chemical Science, Fall 2014 View the complete course: https://ocw.mit.edu/5-111F14 Instructor: Catherine Drennan Valence bond theory and hybridization can be used to explain and/or predict the geometry of any atom in a molecule. In particular, the concept of hybridization is important for understanding the geometry of organic molecules. License: Creative Commons BY-NC-SA More information at http://ocw.mit.edu/terms More courses at http://ocw.mit.edu

• published: 03 Aug 2017
• views: 127791

10:33

Valence Bond Theory | VBT | Chemistry

• Order: Reorder
• Duration: 10:33
• Uploaded Date: 13 Jul 2021
• views: 900579

This lecture is about valence bond theory in chemistry. In this animated lecture, I will teach you the super easy concept of valence bond theory and hybridizati...

This lecture is about valence bond theory in chemistry. In this animated lecture, I will teach you the super easy concept of valence bond theory and hybridization. Chemical Bonding Playlist: https://www.youtube.com/playlist?list=PL3GBdsS--0-Rz7gFuP6pY3B3qlUr7Zox5 Q: What is valence bond theory? Ans: Valence bond theory or commonly known as VBT explain the bond energy, bond length, orbital overlapping, shapes of molecules in covalent bond. To learn more about valence bond theory, watch this lecture till the end. #valencebondtheory #VBT #chemistryclass11 Subscribe my channel at:https://www.youtube.com/channel/UC_ltCdLVMRZ7r3IPzF2Toyg Youtube link: https://www.youtube.com/channel/UC_ltCdLVMRZ7r3IPzF2Toyg Facebook link: https://www.facebook.com/Najamacademy/

https://wn.com/Valence_Bond_Theory_|_Vbt_|_Chemistry

This lecture is about valence bond theory in chemistry. In this animated lecture, I will teach you the super easy concept of valence bond theory and hybridization. Chemical Bonding Playlist: https://www.youtube.com/playlist?list=PL3GBdsS--0-Rz7gFuP6pY3B3qlUr7Zox5 Q: What is valence bond theory? Ans: Valence bond theory or commonly known as VBT explain the bond energy, bond length, orbital overlapping, shapes of molecules in covalent bond. To learn more about valence bond theory, watch this lecture till the end. #valencebondtheory #VBT #chemistryclass11 Subscribe my channel at:https://www.youtube.com/channel/UC_ltCdLVMRZ7r3IPzF2Toyg Youtube link: https://www.youtube.com/channel/UC_ltCdLVMRZ7r3IPzF2Toyg Facebook link: https://www.facebook.com/Najamacademy/

• published: 13 Jul 2021
• views: 900579

7:45

Valence Bond Theory Explained (with examples, H2, CH4)

• Order: Reorder
• Duration: 7:45
• Uploaded Date: 11 Dec 2021
• views: 20675

Valence Bond Theory is the idea that ATOMIC orbitals containing unpaired electrons will OVERLAP to form covalent bonds. Like when one Hydrogen atom (with 1 elec...

Valence Bond Theory is the idea that ATOMIC orbitals containing unpaired electrons will OVERLAP to form covalent bonds. Like when one Hydrogen atom (with 1 electron) combines with another hydrogen atom (also with 1 electron) for form a SINGLE bond (of two electrons) between them. We say those electrons are SHARED. Hybridization can be used to explain molecules that seem to be exceptions to this Theory. Check me out: http://www.chemistnate.com

https://wn.com/Valence_Bond_Theory_Explained_(With_Examples,_H2,_Ch4)

Valence Bond Theory is the idea that ATOMIC orbitals containing unpaired electrons will OVERLAP to form covalent bonds. Like when one Hydrogen atom (with 1 electron) combines with another hydrogen atom (also with 1 electron) for form a SINGLE bond (of two electrons) between them. We say those electrons are SHARED. Hybridization can be used to explain molecules that seem to be exceptions to this Theory. Check me out: http://www.chemistnate.com

• published: 11 Dec 2021
• views: 20675

12:05

Trick for the VBT | Valence Bond Theory | Coordination Compounds.

• Order: Reorder
• Duration: 12:05
• Uploaded Date: 20 Jan 2018
• views: 2669090

In this video I explained Trick for the VBT/valence bond theory/coordination compounds. If you want to learn entire Chemistry in very short time with all clear...

In this video I explained Trick for the VBT/valence bond theory/coordination compounds. If you want to learn entire Chemistry in very short time with all clear concepts and guaranteed marks, whatsapp now @9110662880.

https://wn.com/Trick_For_The_Vbt_|_Valence_Bond_Theory_|_Coordination_Compounds.

In this video I explained Trick for the VBT/valence bond theory/coordination compounds. If you want to learn entire Chemistry in very short time with all clear concepts and guaranteed marks, whatsapp now @9110662880.

• published: 20 Jan 2018
• views: 2669090

26:04

1.3 Valence Bond Theory and Hybridization | Organic Chemistry

• Order: Reorder
• Duration: 26:04
• Uploaded Date: 03 Sep 2020
• views: 69339

Chad goes over Valence Bond Theory and Hybridization covering both the standard atomic orbitals as well as the hybrid orbitals that may be involved in bonding. ...

Chad goes over Valence Bond Theory and Hybridization covering both the standard atomic orbitals as well as the hybrid orbitals that may be involved in bonding. He specifically shows the nature of sp, sp2, and sp3 hybrid orbitals and how to identify the hybridization of an atom. Finally, Chad compares and contrasts sigma bonds and pi bonds, how to recognize where each are present in a structure, and how to identify which orbitals are overlapping to create a particular bond. If you want all my study guides, quizzes, and practice exams, check out my premium course at https://www.chadsprep.com/organic-chemistry-course-youtube Happy Studying! 00:00 Lesson Introduction 00:31 Introduction to Valence Bond Theory and Atomic Orbitals 03:31 Sigma Overlap and Sigma Bonds 06:36 Pi Overlap and Pi Bonds 08:11 How to Identify the Hybridization of an Atom 12:17 sp, sp2, and sp3 Hybridization 21:08 Identifying which Orbitals Overlap to Create Bonds https://www.chadsprep.com/

https://wn.com/1.3_Valence_Bond_Theory_And_Hybridization_|_Organic_Chemistry

Chad goes over Valence Bond Theory and Hybridization covering both the standard atomic orbitals as well as the hybrid orbitals that may be involved in bonding. He specifically shows the nature of sp, sp2, and sp3 hybrid orbitals and how to identify the hybridization of an atom. Finally, Chad compares and contrasts sigma bonds and pi bonds, how to recognize where each are present in a structure, and how to identify which orbitals are overlapping to create a particular bond. If you want all my study guides, quizzes, and practice exams, check out my premium course at https://www.chadsprep.com/organic-chemistry-course-youtube Happy Studying! 00:00 Lesson Introduction 00:31 Introduction to Valence Bond Theory and Atomic Orbitals 03:31 Sigma Overlap and Sigma Bonds 06:36 Pi Overlap and Pi Bonds 08:11 How to Identify the Hybridization of an Atom 12:17 sp, sp2, and sp3 Hybridization 21:08 Identifying which Orbitals Overlap to Create Bonds https://www.chadsprep.com/

• published: 03 Sep 2020
• views: 69339

22:10

Valence Bond Theory

• Order: Reorder
• Duration: 22:10
• Uploaded Date: 16 Feb 2013
• views: 134741

https://wn.com/Valence_Bond_Theory

• published: 16 Feb 2013
• views: 134741

11:58

Hybrid Orbitals explained - Valence Bond Theory | Orbital Hybridization sp3 sp2 sp

• Order: Reorder
• Duration: 11:58
• Uploaded Date: 05 May 2017
• views: 958396

This video explains the hybridization of carbon's, nitrogen's, and oxygen's valence orbitals in a bond, including single, double, and triple bonds. Explained ar...

This video explains the hybridization of carbon's, nitrogen's, and oxygen's valence orbitals in a bond, including single, double, and triple bonds. Explained are orbital overlap, sigma and pi bonds, and hybrid orbitals in carbon (sp³, sp², sp) using ethane, ethene, and ethyne; in nitrogen using ammonia (including lone pairs); and in oxygen using water (including lone pairs). Timings for the different hybridizations: 1:01 sp³, 5:23 sp², 8:10 sp, 10:21 ammonia, NH3; 11:15 water, H2O. More on Hybrid Orbitals -- Wikipedia "In chemistry, hybridisation (or hybridization) is the concept of mixing atomic orbitals into new hybrid orbitals (with different energies, shapes, etc., than the component atomic orbitals) suitable for the pairing of electrons to form chemical bonds in valence bond theory. Hybrid orbitals are very useful in the explanation of molecular geometry and atomic bonding properties. Chemist Linus Pauling first developed the hybridisation theory in 1931 in order to explain the structure of simple molecules such as methane (CH4) using atomic orbitals.[2] Pauling pointed out that a carbon atom forms four bonds by using one s and three p orbitals, so that "it might be inferred" that a carbon atom would form three bonds at right angles (using p orbitals) and a fourth weaker bond using the s orbital in some arbitrary direction. In reality however, methane has four bonds of equivalent strength separated by the tetrahedral bond angle of 109.5°. Pauling explained this by supposing that in the presence of four hydrogen atoms, the s and p orbitals form four equivalent combinations or hybrid orbitals, each denoted by sp3 to indicate its composition, which are directed along the four C-H bonds.[3] This concept was developed for such simple chemical systems, but the approach was later applied more widely, and today it is considered an effective heuristic for rationalising the structures of organic compounds. It gives a simple orbital picture equivalent to Lewis structures. Hybridisation theory finds its use mainly in organic chemistry.Hybrid orbitals are assumed to be mixtures of atomic orbitals, superimposed on each other in various proportions. For example, in methane, the C hybrid orbital which forms each carbon–hydrogen bond consists of 25% s character and 75% p character and is thus described as sp3 (read as s-p-three) hybridised. Quantum mechanics describes this hybrid as an sp3 wavefunction of the form N(s + √3pσ), where N is a normalisation constant (here 1/2) and pσ is a p orbital directed along the C-H axis to form a sigma bond. The ratio of coefficients (denoted λ in general) is √3 in this example. Since the electron density associated with an orbital is proportional to the square of the wavefunction, the ratio of p-character to s-character is λ2 = 3. The p character or the weight of the p component is N2λ2 = 3/4. The amount of p character or s character, which is decided mainly by orbital hybridisation, can be used to reliably predict molecular properties such as acidity or basicity." Wikipedia contributors. "Hybrid orbital." Wikipedia, The Free Encyclopedia. Wikipedia, The Free Encyclopedia, 4 May. 2017. Web. 4 May. 2017. CC Academy videos are easy 101 crash course tutorials for step by step Chemistry help on your chemistry homework, problems, and experiments. Check out other popular CC Academy videos on this channel: -Stoichiometry Tutorial, step by step -Types of Chemical Reactions: How to classify five basic reaction types -Solution Stoichiometry -Orbitals the Basics: Atomic Orbitals Tutorial -Hybrid Orbitals Explained -Polar Molecules Tutorial: How to determine polarity in a molecule -Metallic Bonding and Metallic Properties Explained -Covalent Bonding Tutorial -Ionic Bonds, Ionic Compounds: What is an ionic bond and how do ionic compounds form -Electronegativity and bond character (bond type): non-polar covalent, polar, ionic -Metric Unit Prefix Conversions: How to Convert Metric System Prefixes -Metric unit conversions shortcut: fast, easy how-to with examples -Mole Conversions Tutorial: how to convert mole - mass, mole - particle, mass - particle problems -Frequency, Wavelength, and the Speed of Light -The Bohr Model of the Atom and Atomic Emission Spectra -What is Heat: A brief introduction at the particle level -Rutherford's Gold Foil Experiment -Unit Conversion Using Dimensional Analysis Tutorial -What is Fire: Combustion Reaction Tutorial -Quantum Numbers Tutorial -Electron Configurations Tutorial and How to Derive Electron Configurations from the Periodic Table -Concentration and Molarity Explained -Heating Curves Tutorial -Naming Ionic Compounds -Limiting Reactant Tutorial -PV=nRT The Ideal Gas Law: What is it, What is R, Four practice problems solved including molar mass -Gas density and PV=nRT, the ideal gas law -Surface Tension - What is it, how does it form, what properties does it impart

https://wn.com/Hybrid_Orbitals_Explained_Valence_Bond_Theory_|_Orbital_Hybridization_Sp3_Sp2_Sp

This video explains the hybridization of carbon's, nitrogen's, and oxygen's valence orbitals in a bond, including single, double, and triple bonds. Explained are orbital overlap, sigma and pi bonds, and hybrid orbitals in carbon (sp³, sp², sp) using ethane, ethene, and ethyne; in nitrogen using ammonia (including lone pairs); and in oxygen using water (including lone pairs). Timings for the different hybridizations: 1:01 sp³, 5:23 sp², 8:10 sp, 10:21 ammonia, NH3; 11:15 water, H2O. More on Hybrid Orbitals -- Wikipedia "In chemistry, hybridisation (or hybridization) is the concept of mixing atomic orbitals into new hybrid orbitals (with different energies, shapes, etc., than the component atomic orbitals) suitable for the pairing of electrons to form chemical bonds in valence bond theory. Hybrid orbitals are very useful in the explanation of molecular geometry and atomic bonding properties. Chemist Linus Pauling first developed the hybridisation theory in 1931 in order to explain the structure of simple molecules such as methane (CH4) using atomic orbitals.[2] Pauling pointed out that a carbon atom forms four bonds by using one s and three p orbitals, so that "it might be inferred" that a carbon atom would form three bonds at right angles (using p orbitals) and a fourth weaker bond using the s orbital in some arbitrary direction. In reality however, methane has four bonds of equivalent strength separated by the tetrahedral bond angle of 109.5°. Pauling explained this by supposing that in the presence of four hydrogen atoms, the s and p orbitals form four equivalent combinations or hybrid orbitals, each denoted by sp3 to indicate its composition, which are directed along the four C-H bonds.[3] This concept was developed for such simple chemical systems, but the approach was later applied more widely, and today it is considered an effective heuristic for rationalising the structures of organic compounds. It gives a simple orbital picture equivalent to Lewis structures. Hybridisation theory finds its use mainly in organic chemistry.Hybrid orbitals are assumed to be mixtures of atomic orbitals, superimposed on each other in various proportions. For example, in methane, the C hybrid orbital which forms each carbon–hydrogen bond consists of 25% s character and 75% p character and is thus described as sp3 (read as s-p-three) hybridised. Quantum mechanics describes this hybrid as an sp3 wavefunction of the form N(s + √3pσ), where N is a normalisation constant (here 1/2) and pσ is a p orbital directed along the C-H axis to form a sigma bond. The ratio of coefficients (denoted λ in general) is √3 in this example. Since the electron density associated with an orbital is proportional to the square of the wavefunction, the ratio of p-character to s-character is λ2 = 3. The p character or the weight of the p component is N2λ2 = 3/4. The amount of p character or s character, which is decided mainly by orbital hybridisation, can be used to reliably predict molecular properties such as acidity or basicity." Wikipedia contributors. "Hybrid orbital." Wikipedia, The Free Encyclopedia. Wikipedia, The Free Encyclopedia, 4 May. 2017. Web. 4 May. 2017. CC Academy videos are easy 101 crash course tutorials for step by step Chemistry help on your chemistry homework, problems, and experiments. Check out other popular CC Academy videos on this channel: -Stoichiometry Tutorial, step by step -Types of Chemical Reactions: How to classify five basic reaction types -Solution Stoichiometry -Orbitals the Basics: Atomic Orbitals Tutorial -Hybrid Orbitals Explained -Polar Molecules Tutorial: How to determine polarity in a molecule -Metallic Bonding and Metallic Properties Explained -Covalent Bonding Tutorial -Ionic Bonds, Ionic Compounds: What is an ionic bond and how do ionic compounds form -Electronegativity and bond character (bond type): non-polar covalent, polar, ionic -Metric Unit Prefix Conversions: How to Convert Metric System Prefixes -Metric unit conversions shortcut: fast, easy how-to with examples -Mole Conversions Tutorial: how to convert mole - mass, mole - particle, mass - particle problems -Frequency, Wavelength, and the Speed of Light -The Bohr Model of the Atom and Atomic Emission Spectra -What is Heat: A brief introduction at the particle level -Rutherford's Gold Foil Experiment -Unit Conversion Using Dimensional Analysis Tutorial -What is Fire: Combustion Reaction Tutorial -Quantum Numbers Tutorial -Electron Configurations Tutorial and How to Derive Electron Configurations from the Periodic Table -Concentration and Molarity Explained -Heating Curves Tutorial -Naming Ionic Compounds -Limiting Reactant Tutorial -PV=nRT The Ideal Gas Law: What is it, What is R, Four practice problems solved including molar mass -Gas density and PV=nRT, the ideal gas law -Surface Tension - What is it, how does it form, what properties does it impart

• published: 05 May 2017
• views: 958396

23:37

V B T/ Valence Bond Theory/AJT Chemistry

• Order: Reorder
• Duration: 23:37
• Uploaded Date: 03 May 2021
• views: 25399

This video explains valence bond theory Different types of overlapping Sigma and Pi bond For more video in chemistry subscribe this channel Have you seen my ot...

This video explains valence bond theory Different types of overlapping Sigma and Pi bond For more video in chemistry subscribe this channel Have you seen my other videos for SSLC, PLUS TWO ,UG AND PG Students, Publishing the video for Competitive exams like NEET, IIT JEE, IIT JAM, NET, GATE, AND PSC/upsc exams.

https://wn.com/V_B_T_Valence_Bond_Theory_Ajt_Chemistry

This video explains valence bond theory Different types of overlapping Sigma and Pi bond For more video in chemistry subscribe this channel Have you seen my other videos for SSLC, PLUS TWO ,UG AND PG Students, Publishing the video for Competitive exams like NEET, IIT JEE, IIT JAM, NET, GATE, AND PSC/upsc exams.

• published: 03 May 2021
• views: 25399

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7:54

Valence Bond Theory, Hybrid Orbitals, and Molecular Orbital Theory

Attention! This video about molecular orbitals is much better: https://www.youtube.com/wat...

published: 10 Jan 2016

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Valence Bond Theory, Hybrid Orbitals, and Molecular Orbital Theory

Valence Bond Theory, Hybrid Orbitals, and Molecular Orbital Theory

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Attention! This video about molecular orbitals is much better: https://www.youtube.com/watch?v=I2k61JMk71M Alright, let's be real. Nobody understands molecular orbitals when they first take chemistry. You just pretend you do, and then in your next course you learn them a little better. And then a little better than that. And five years later you sort of understand them. So don't get discouraged! Just watch this for a head start and do your best. Watch the whole General Chemistry playlist: http://bit.ly/ProfDaveGenChem Study for the AP Chemistry exam with me: https://bit.ly/ProfDaveAPChem Organic Chemistry Tutorials: http://bit.ly/ProfDaveOrgChem Biochemistry Tutorials: http://bit.ly/ProfDaveBiochem Biology Tutorials: http://bit.ly/ProfDaveBio Classical Physics Tutorials: http://bit.ly/ProfDavePhysics1 Modern Physics Tutorials: http://bit.ly/ProfDavePhysics2 Mathematics Tutorials: http://bit.ly/ProfDaveMaths EMAIL► [email protected] PATREON► http://patreon.com/ProfessorDaveExplains Check out "Is This Wi-Fi Organic?", my book on disarming pseudoscience! Amazon: https://amzn.to/2HtNpVH Bookshop: https://bit.ly/39cKADM Barnes and Noble: https://bit.ly/3pUjmrn Book Depository: http://bit.ly/3aOVDlT

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21:36

Molecular Orbital Theory - Bonding & Antibonding MO - Bond Order

This chemistry video tutorial provides a basic introduction into molecular orbital theory....

published: 28 Dec 2020

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Molecular Orbital Theory - Bonding & Antibonding MO - Bond Order

Molecular Orbital Theory - Bonding & Antibonding MO - Bond Order

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• published: 28 Dec 2020
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This chemistry video tutorial provides a basic introduction into molecular orbital theory. It describes the formation of bonding and antibonding molecular orbitals from the combination of atomic orbitals. It explains how to calculate the bond order of homonuclear diatomic molecule as well as heteronuclear diatomic molecules. It also contains examples and practice problems of homonuclear and heteronuclear molecular ions. Access The Full 1 Hour Video: https://www.patreon.com/MathScienceTutor Direct Link to The Full Video: https://bit.ly/3VY2Mpv Chemistry PDF Worksheets: https://www.video-tutor.net/chemistry-basic-introduction.html _________________________________ Access The Full Video on YouTube: https://www.youtube.com/watch?v=MdobdIhf_dU Join The YouTube Membership Program: https://bit.ly/46xaQTR Chemistry 1 Final Exam Review: https://www.youtube.com/watch?v=5yw1YH7YA7c

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11:05

Drawing Molecular Orbital Diagrams

published: 16 Aug 2017

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Drawing Molecular Orbital Diagrams

Drawing Molecular Orbital Diagrams

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1:05:37

13. Molecular Orbital Theory

MIT 5.111 Principles of Chemical Science, Fall 2014 View the complete course: https://ocw....

published: 03 Aug 2017

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13. Molecular Orbital Theory

13. Molecular Orbital Theory

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MIT 5.111 Principles of Chemical Science, Fall 2014 View the complete course: https://ocw.mit.edu/5-111F14 Instructor: Catherine Drennan Why do some atoms readily form bonds with each other and other atoms don’t? Using molecular orbital theory, we can rationalize why molecular hydrogen is an abundant molecule whereas molecular helium is not. If you want to power your starship with dilithium crystals, you should watch this lecture. License: Creative Commons BY-NC-SA More information at http://ocw.mit.edu/terms More courses at http://ocw.mit.edu

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45:53

9.5 Molecular Orbital Theory | General Chemistry

Chad provides a comprehensive lesson on Molecular Orbital Theory. The lesson begins by sh...

published: 05 Nov 2021

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9.5 Molecular Orbital Theory | General Chemistry

9.5 Molecular Orbital Theory | General Chemistry

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Chad provides a comprehensive lesson on Molecular Orbital Theory. The lesson begins by showing how overlap of atomic orbitals results in both bonding and antibonding molecular orbitals. Constructive overlap between atomic orbitals results in a lower energy, bonding molecular orbital, while destructive overlap between atomic orbitals results in a higher energy, antibonding molecular orbital. The Molecular Orbital diagrams of H2 and He2 are both presented and used to explain why H2 exists and He2 does not. It is also shown how to calculate bond order from a molecular orbital diagram (formula) and how for many species this is consistent with the number of bonds in the Lewis structure. The Molecular Orbital diagrams for homonuclear diatomic molecules of the second period are then presented. The Molecular Orbital diagrams of O2, F2, and Ne2 are presented and the corresponding bond orders calculated. Paramagnetic and diamagnetic are defined and it is shown that a species is paramagnetic if it has unpaired electrons and diamagnetic if all of its electrons are paired. The MO diagrams are then used to explain why Ne2 does not exist (bond order = 0) and why O2 is paramagnetic, something that wouldn't be predicted by the Lewis structure. The MO diagram for N2 is then presented and it is shown that the energies of the sigma 2p and pi 2p molecular orbitals are inverted due to sp mixing in the MO diagram for Li2, Be2, B2, C2, and N2. The bond order for N2 is calculated (it equals 3) which corresponds nicely with the triple bond present in the Lewis structure. I've embedded this playlist as a course on my website with all the lessons organized by chapter in a collapsible menu and much of the content from the study guide included on the page. Check this lesson out at https://www.chadsprep.com/chads-general-chemistry-videos/molecular-orbital-theory-made-easy/ If you want all my study guides, quizzes, final exam reviews, and practice exams, check out my General Chemistry Master Course (free trial available) at https://www.chadsprep.com/genchem-youtube 00:00 Lesson Introduction 01:09 Constructive & Destructive Overlap 05:26 Sigma 1s & 1s* 14:30 Sigma 2p & 2p* 19:58 Pi 2p & 2p* 24:34 Molecular Orbital Diagram for H2 26:29 Molecular Orbital Diagram for He2 27:17 How to Calculate Bond Order from Molecular Orbital Diagram 30:58 Molecular Orbital Diagram for O2, F2, Ne2 35:22 Paramagnetic vs Diamagnetic 39:54 Molecular Orbital Diagram for N2 https://www.chadsprep.com/ https://courses.chadsprep.com/pages/pre-health-courses

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5:51

CHEMISTRY 101: Molecular Orbital Theory, Bond order, bond strength, magnetic properties

In this example problem, we show how to fill a molecular orbital diagram for a diatomic mo...

published: 07 Nov 2015

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CHEMISTRY 101: Molecular Orbital Theory, Bond order, bond strength, magnetic properties

CHEMISTRY 101: Molecular Orbital Theory, Bond order, bond strength, magnetic properties

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In this example problem, we show how to fill a molecular orbital diagram for a diatomic molecule and use molecular bond theory to compare bond order, bond strength, and magnetic properties (paramagnetic or diamagnetic). Use molecular orbital theory to determine: a.) the bond order of N2 b.) whether N2 is paramagnetic or diamagnetic c.) order of increasing bond strength for N2, N22-, N2+

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14:19

⚡⚡MOLECULAR ORBITAL THEORY💥💥 ഇപ്പൊ BULB കത്തി💥💥

🔴Plus One Model Exam Live Class Timetable : https://docs.google.com/spreadsheets/d/1Qh87wq...

published: 12 Jun 2022

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⚡⚡MOLECULAR ORBITAL THEORY💥💥 ഇപ്പൊ BULB കത്തി💥💥

⚡⚡MOLECULAR ORBITAL THEORY💥💥 ഇപ്പൊ BULB കത്തി💥💥

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• published: 12 Jun 2022
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🔴Plus One Model Exam Live Class Timetable : https://docs.google.com/spreadsheets/d/1Qh87wqCvYJX2bmsFZOc7kWbYQS-1H9DxzGSTc8ZNYTc/edit?usp=sharing🔴 🔴 To Join Exam Winner Free +1 Broadcast Group Fill the google form Given : https://forms.gle/Bvb3fiBX4dciLjr19 🔴 😎Plus Two Tution Batch(Uyare Batch💥) 🔥Batch Details🔥 ✴ To join Plus Two Uyare Batch 💥 , 📱WhatsApp to 75 920 920 21 or click here: https://wa.link/4vxeql ✴ Batch Fees: Rs. 6000/- ✴ Batch Brochure:https://drive.google.com/file/d/10-xrtHvd3Nj_BEAOgzu5OKvyUPnxYsTM/view?usp=sharing 👩‍⚕️✌Plus Two Tution + NEET Batch 🤩👨‍⚕️ 🔥Batch Details🔥 ✴ To join Plus Two Tution + NEET Batch 💥 , 📱WhatsApp to 75 920 920 21 or click here: https://wa.link/4vxeql ✴ Batch Fees: Rs. 9000/- ✴ Batch Brochure: https://drive.google.com/file/d/1XnsLQdHF1Zbp6HGMdoiaO1Awl3_bqY8x/view?usp=sharing 👷‍♀️👨‍🎓Plus Two Tution + KEAM Batch👷‍♀️👨‍🎓 🔥Batch Details🔥 ✴ To join Plus Two Tution +KEAM Batch 💥 , 📱WhatsApp to 75 920 920 21 or click here: https://wa.link/4vxeql ✴ Batch Fees: Rs. 8000/- ✴BatchBrochure:https://drive.google.com/file/d/19kYtpks052yoEQYyrPm8LFM5XqJjFHtm/view?usp=sharing 👮‍♀️👨‍✈️Plus Two Tution + NDA Batch👮‍♀️👨‍✈️ 🔥Batch Details🔥 ✴ To join Plus Two Tution + NDA Batch 💥 , 📱WhatsApp to 75 920 920 21 or click here: https://wa.link/4vxeql ✴ Batch Fees: Rs. 2999/- ✨🎁✈Exam Winner Learning App Playstore :https://play.google.com/store/apps/de... ✈✈✈ 📧✌♥PlusTwo Telegram : https://t.me/examwinnertm OR search "Exam Winner: +2 Updates & Notifications" on telegram 📧✌♥ 💥💥Instagram: https://instagram.com/examwinner_app?...💥💥 💥💥 #Plusone #plusonemodelexam #plusoneexam #plusoneModelexam #CompleteRevision #Revision #plusoneexam #physics #chemistry #biology #maths #modelexam #plusonePhysics #plusoneChemistry #plusoneBiology #plusoneMaths

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13:19

Molecular Orbital MO Theory Simplified for Sigma and Pi Bonds

http://Leah4sci.com/MOtheory presents: Molecular Orbital Theory for Sigma and Pi Bonds Ne...

published: 07 Mar 2021

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Molecular Orbital MO Theory Simplified for Sigma and Pi Bonds

Molecular Orbital MO Theory Simplified for Sigma and Pi Bonds

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• published: 07 Mar 2021
• views: 130158

http://Leah4sci.com/MOtheory presents: Molecular Orbital Theory for Sigma and Pi Bonds Need help with Orgo? Download my free guide ’10 Secrets to Acing Organic Chemistry’ HERE: http://leah4sci.com/orgo-ebook/ In this video, I’ll walk you through the most basic and foundational concepts behind Molecular Orbital theory for both sigma and pi bonds. You’ll learn the difference in bonding and antibonding molecular orbitals through a simple analogy and also how they compare on an energy diagram to the atomic orbitals of the bonding atoms. Additionally, you’ll learn to depict molecular orbitals, both bonding and antibonding, with simple drawings. In this video: [0:13] Introduction to Molecular Orbital Theory [2:29] Review of Energy Diagram of H2 Gas [6:04] Difference Between the Antibonding and Bonding MO [7:10] Molecular Orbitals for Pi Bonds Links & Resources Mentioned In This Video: Organic Chemistry Basics http://Leah4sci.com/OrgoBasics Resonance Structures in Organic Chemistry http://Leah4sci.com/Resonance Molecular Orbital Theory http://Leah4sci.com/MOtheory This is part of the Molecular Orbital Theory Mini Series. Catch the entire MO Theory Video Series on my website at http://leah4sci.com/MOtheory Follow along with your semester by using my Orgo Syllabus Companion: http://leah4sci.com/syllabus For more in-depth review including practice problems and explanations, come join my online membership site the organic chemistry study hall: http://leah4sci.com/join For private online tutoring visit my website: http://leah4sci.com/organic-chemistry For questions and comments, find me on social media here: Facebook: https://www.facebook.com/Leah4Sci Twitter: https://twitter.com/Leah4Sci Instagram: https://www.instagram.com/leah4sci/ Pinterest: http://www.pinterest.com/leah4sci/

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4:59

Molecular Orbital (MO) Diagram for O2(-)

When two oxygen atoms overlap, the sigma(2p) molecular orbital is LOWER in energy than the...

published: 31 Jul 2020

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Molecular Orbital (MO) Diagram for O2(-)

Molecular Orbital (MO) Diagram for O2(-)

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When two oxygen atoms overlap, the sigma(2p) molecular orbital is LOWER in energy than the pi(2p) orbitals. This different from Nitrogen, where it's the other way around. O2(-1) is just like regular molecular oxygen, but the extra electron causes its bond to be unstable. Its bond order is 1.5 Check me out: http://www.chemistnate.com

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Molecular orbital theory

In chemistry, molecular orbital (MO) theory is a method for determining molecular structure in which electrons are not assigned to individual bonds between atoms, but are treated as moving under the influence of the nuclei in the whole molecule. The spatial and energetic properties of electrons within atoms are fixed by quantum mechanics to form orbitals that contain these electrons. While atomic orbitals contain electrons ascribed to a single atom, molecular orbitals, which surround a number of atoms in a molecule, contain valence electrons between atoms. Molecular orbital theory, which was proposed in the early twentieth century, revolutionized the study of bonding by approximating the positions of bonded electrons—the molecular orbitals—as Linear Combinations of Atomic Orbitals (LCAO). These approximations are now made by applying the Density Functional Theory (DFT) or Hartree–Fock (HF) models to the Schrödinger equation.

Quantitative applications

In this theory, each molecule has a set of molecular orbitals, in which it is assumed that the molecular orbital wave function ψ_j can be written as a simple weighted sum of the n constituent atomic orbitals χ_i, according to the following equation:

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This page contains text from Wikipedia, the Free Encyclopedia - https://wn.com/Molecular_orbital_theory

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10:39

Valence Bond Theory & Hybrid Atomic Orbitals

This organic chemistry video tutorial provides a basic introduction into valence bond theo...

published: 07 Jan 2021

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Valence Bond Theory & Hybrid Atomic Orbitals

Valence Bond Theory & Hybrid Atomic Orbitals

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• published: 07 Jan 2021
• views: 776815

This organic chemistry video tutorial provides a basic introduction into valence bond theory and hybrid atomic orbitals. It explains how to find the hybridization of carbon atom such as sp, sp2, and sp3. it also explains how to describe the orbitals that overlap to form a covalent bond. In addition, it explains how to determine the number of sigma and pi bonds in a molecule. Access The Full 33 Minute Video: https://www.patreon.com/MathScienceTutor Direct Link to The Full Video: https://bit.ly/3X1ImNI Organic Chemistry PDF Worksheets: https://www.video-tutor.net/orgo-chem.html ________________________________________ Join The YouTube Membership Program: https://bit.ly/46xaQTR Full 33 Minute Video on YouTube: https://www.youtube.com/watch?v=qyHMQXBkh50 Chemistry 1 Final Exam Review: https://www.youtube.com/watch?v=5yw1YH7YA7c

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7:54

Valence Bond Theory, Hybrid Orbitals, and Molecular Orbital Theory

Attention! This video about molecular orbitals is much better: https://www.youtube.com/wat...

published: 10 Jan 2016

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Valence Bond Theory, Hybrid Orbitals, and Molecular Orbital Theory

Valence Bond Theory, Hybrid Orbitals, and Molecular Orbital Theory

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• published: 10 Jan 2016
• views: 1911223

Attention! This video about molecular orbitals is much better: https://www.youtube.com/watch?v=I2k61JMk71M Alright, let's be real. Nobody understands molecular orbitals when they first take chemistry. You just pretend you do, and then in your next course you learn them a little better. And then a little better than that. And five years later you sort of understand them. So don't get discouraged! Just watch this for a head start and do your best. Watch the whole General Chemistry playlist: http://bit.ly/ProfDaveGenChem Study for the AP Chemistry exam with me: https://bit.ly/ProfDaveAPChem Organic Chemistry Tutorials: http://bit.ly/ProfDaveOrgChem Biochemistry Tutorials: http://bit.ly/ProfDaveBiochem Biology Tutorials: http://bit.ly/ProfDaveBio Classical Physics Tutorials: http://bit.ly/ProfDavePhysics1 Modern Physics Tutorials: http://bit.ly/ProfDavePhysics2 Mathematics Tutorials: http://bit.ly/ProfDaveMaths EMAIL► [email protected] PATREON► http://patreon.com/ProfessorDaveExplains Check out "Is This Wi-Fi Organic?", my book on disarming pseudoscience! Amazon: https://amzn.to/2HtNpVH Bookshop: https://bit.ly/39cKADM Barnes and Noble: https://bit.ly/3pUjmrn Book Depository: http://bit.ly/3aOVDlT

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56:46

14. Valence Bond Theory and Hybridization

MIT 5.111 Principles of Chemical Science, Fall 2014 View the complete course: https://ocw....

published: 03 Aug 2017

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14. Valence Bond Theory and Hybridization

14. Valence Bond Theory and Hybridization

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• published: 03 Aug 2017
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MIT 5.111 Principles of Chemical Science, Fall 2014 View the complete course: https://ocw.mit.edu/5-111F14 Instructor: Catherine Drennan Valence bond theory and hybridization can be used to explain and/or predict the geometry of any atom in a molecule. In particular, the concept of hybridization is important for understanding the geometry of organic molecules. License: Creative Commons BY-NC-SA More information at http://ocw.mit.edu/terms More courses at http://ocw.mit.edu

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10:33

Valence Bond Theory | VBT | Chemistry

This lecture is about valence bond theory in chemistry. In this animated lecture, I will t...

published: 13 Jul 2021

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Valence Bond Theory | VBT | Chemistry

Valence Bond Theory | VBT | Chemistry

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This lecture is about valence bond theory in chemistry. In this animated lecture, I will teach you the super easy concept of valence bond theory and hybridization. Chemical Bonding Playlist: https://www.youtube.com/playlist?list=PL3GBdsS--0-Rz7gFuP6pY3B3qlUr7Zox5 Q: What is valence bond theory? Ans: Valence bond theory or commonly known as VBT explain the bond energy, bond length, orbital overlapping, shapes of molecules in covalent bond. To learn more about valence bond theory, watch this lecture till the end. #valencebondtheory #VBT #chemistryclass11 Subscribe my channel at:https://www.youtube.com/channel/UC_ltCdLVMRZ7r3IPzF2Toyg Youtube link: https://www.youtube.com/channel/UC_ltCdLVMRZ7r3IPzF2Toyg Facebook link: https://www.facebook.com/Najamacademy/

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7:45

Valence Bond Theory Explained (with examples, H2, CH4)

Valence Bond Theory is the idea that ATOMIC orbitals containing unpaired electrons will OV...

published: 11 Dec 2021

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Valence Bond Theory Explained (with examples, H2, CH4)

Valence Bond Theory Explained (with examples, H2, CH4)

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• published: 11 Dec 2021
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Valence Bond Theory is the idea that ATOMIC orbitals containing unpaired electrons will OVERLAP to form covalent bonds. Like when one Hydrogen atom (with 1 electron) combines with another hydrogen atom (also with 1 electron) for form a SINGLE bond (of two electrons) between them. We say those electrons are SHARED. Hybridization can be used to explain molecules that seem to be exceptions to this Theory. Check me out: http://www.chemistnate.com

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12:05

Trick for the VBT | Valence Bond Theory | Coordination Compounds.

In this video I explained Trick for the VBT/valence bond theory/coordination compounds. I...

published: 20 Jan 2018

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Trick for the VBT | Valence Bond Theory | Coordination Compounds.

Trick for the VBT | Valence Bond Theory | Coordination Compounds.

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• published: 20 Jan 2018
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In this video I explained Trick for the VBT/valence bond theory/coordination compounds. If you want to learn entire Chemistry in very short time with all clear concepts and guaranteed marks, whatsapp now @9110662880.

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26:04

1.3 Valence Bond Theory and Hybridization | Organic Chemistry

Chad goes over Valence Bond Theory and Hybridization covering both the standard atomic orb...

published: 03 Sep 2020

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1.3 Valence Bond Theory and Hybridization | Organic Chemistry

1.3 Valence Bond Theory and Hybridization | Organic Chemistry

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Chad goes over Valence Bond Theory and Hybridization covering both the standard atomic orbitals as well as the hybrid orbitals that may be involved in bonding. He specifically shows the nature of sp, sp2, and sp3 hybrid orbitals and how to identify the hybridization of an atom. Finally, Chad compares and contrasts sigma bonds and pi bonds, how to recognize where each are present in a structure, and how to identify which orbitals are overlapping to create a particular bond. If you want all my study guides, quizzes, and practice exams, check out my premium course at https://www.chadsprep.com/organic-chemistry-course-youtube Happy Studying! 00:00 Lesson Introduction 00:31 Introduction to Valence Bond Theory and Atomic Orbitals 03:31 Sigma Overlap and Sigma Bonds 06:36 Pi Overlap and Pi Bonds 08:11 How to Identify the Hybridization of an Atom 12:17 sp, sp2, and sp3 Hybridization 21:08 Identifying which Orbitals Overlap to Create Bonds https://www.chadsprep.com/

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22:10

Valence Bond Theory

published: 16 Feb 2013

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Valence Bond Theory

Valence Bond Theory

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11:58

Hybrid Orbitals explained - Valence Bond Theory | Orbital Hybridization sp3 sp2 sp

This video explains the hybridization of carbon's, nitrogen's, and oxygen's valence orbita...

published: 05 May 2017

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Hybrid Orbitals explained - Valence Bond Theory | Orbital Hybridization sp3 sp2 sp

Hybrid Orbitals explained - Valence Bond Theory | Orbital Hybridization sp3 sp2 sp

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• published: 05 May 2017
• views: 958396

This video explains the hybridization of carbon's, nitrogen's, and oxygen's valence orbitals in a bond, including single, double, and triple bonds. Explained are orbital overlap, sigma and pi bonds, and hybrid orbitals in carbon (sp³, sp², sp) using ethane, ethene, and ethyne; in nitrogen using ammonia (including lone pairs); and in oxygen using water (including lone pairs). Timings for the different hybridizations: 1:01 sp³, 5:23 sp², 8:10 sp, 10:21 ammonia, NH3; 11:15 water, H2O. More on Hybrid Orbitals -- Wikipedia "In chemistry, hybridisation (or hybridization) is the concept of mixing atomic orbitals into new hybrid orbitals (with different energies, shapes, etc., than the component atomic orbitals) suitable for the pairing of electrons to form chemical bonds in valence bond theory. Hybrid orbitals are very useful in the explanation of molecular geometry and atomic bonding properties. Chemist Linus Pauling first developed the hybridisation theory in 1931 in order to explain the structure of simple molecules such as methane (CH4) using atomic orbitals.[2] Pauling pointed out that a carbon atom forms four bonds by using one s and three p orbitals, so that "it might be inferred" that a carbon atom would form three bonds at right angles (using p orbitals) and a fourth weaker bond using the s orbital in some arbitrary direction. In reality however, methane has four bonds of equivalent strength separated by the tetrahedral bond angle of 109.5°. Pauling explained this by supposing that in the presence of four hydrogen atoms, the s and p orbitals form four equivalent combinations or hybrid orbitals, each denoted by sp3 to indicate its composition, which are directed along the four C-H bonds.[3] This concept was developed for such simple chemical systems, but the approach was later applied more widely, and today it is considered an effective heuristic for rationalising the structures of organic compounds. It gives a simple orbital picture equivalent to Lewis structures. Hybridisation theory finds its use mainly in organic chemistry.Hybrid orbitals are assumed to be mixtures of atomic orbitals, superimposed on each other in various proportions. For example, in methane, the C hybrid orbital which forms each carbon–hydrogen bond consists of 25% s character and 75% p character and is thus described as sp3 (read as s-p-three) hybridised. Quantum mechanics describes this hybrid as an sp3 wavefunction of the form N(s + √3pσ), where N is a normalisation constant (here 1/2) and pσ is a p orbital directed along the C-H axis to form a sigma bond. The ratio of coefficients (denoted λ in general) is √3 in this example. Since the electron density associated with an orbital is proportional to the square of the wavefunction, the ratio of p-character to s-character is λ2 = 3. The p character or the weight of the p component is N2λ2 = 3/4. The amount of p character or s character, which is decided mainly by orbital hybridisation, can be used to reliably predict molecular properties such as acidity or basicity." Wikipedia contributors. "Hybrid orbital." Wikipedia, The Free Encyclopedia. Wikipedia, The Free Encyclopedia, 4 May. 2017. Web. 4 May. 2017. CC Academy videos are easy 101 crash course tutorials for step by step Chemistry help on your chemistry homework, problems, and experiments. Check out other popular CC Academy videos on this channel: -Stoichiometry Tutorial, step by step -Types of Chemical Reactions: How to classify five basic reaction types -Solution Stoichiometry -Orbitals the Basics: Atomic Orbitals Tutorial -Hybrid Orbitals Explained -Polar Molecules Tutorial: How to determine polarity in a molecule -Metallic Bonding and Metallic Properties Explained -Covalent Bonding Tutorial -Ionic Bonds, Ionic Compounds: What is an ionic bond and how do ionic compounds form -Electronegativity and bond character (bond type): non-polar covalent, polar, ionic -Metric Unit Prefix Conversions: How to Convert Metric System Prefixes -Metric unit conversions shortcut: fast, easy how-to with examples -Mole Conversions Tutorial: how to convert mole - mass, mole - particle, mass - particle problems -Frequency, Wavelength, and the Speed of Light -The Bohr Model of the Atom and Atomic Emission Spectra -What is Heat: A brief introduction at the particle level -Rutherford's Gold Foil Experiment -Unit Conversion Using Dimensional Analysis Tutorial -What is Fire: Combustion Reaction Tutorial -Quantum Numbers Tutorial -Electron Configurations Tutorial and How to Derive Electron Configurations from the Periodic Table -Concentration and Molarity Explained -Heating Curves Tutorial -Naming Ionic Compounds -Limiting Reactant Tutorial -PV=nRT The Ideal Gas Law: What is it, What is R, Four practice problems solved including molar mass -Gas density and PV=nRT, the ideal gas law -Surface Tension - What is it, how does it form, what properties does it impart

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23:37

V B T/ Valence Bond Theory/AJT Chemistry

This video explains valence bond theory Different types of overlapping Sigma and Pi bond ...

published: 03 May 2021

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V B T/ Valence Bond Theory/AJT Chemistry

V B T/ Valence Bond Theory/AJT Chemistry

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• published: 03 May 2021
• views: 25399

This video explains valence bond theory Different types of overlapping Sigma and Pi bond For more video in chemistry subscribe this channel Have you seen my other videos for SSLC, PLUS TWO ,UG AND PG Students, Publishing the video for Competitive exams like NEET, IIT JEE, IIT JAM, NET, GATE, AND PSC/upsc exams.

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Valence Bond Theory & Hybrid Atomic Orbitals...

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Hybrid Theory

by: Linkin Park

This song's called my December
This is my December, this is my time of the year
This is my December, this is all so clear
This is my December, this is my snow covered home
This is my December, this is me alone
And I
(Just wish that I didn't feel like there was something I missed)
And I
(Take back all the things I said to make you feel like that)
And I
(Just wish that I didn't feel like there was something I missed)
And I
(Take back all the things that I said to you)
And I'd give it all away
Just to have somewhere to go to
Give it all away
To have someone to come home to
This is my December
These are my snow covered trees
This is me pretending
This is all I need
And I
(Just wish that I didn't feel like there was something I missed)
And I
(Take back all the things I said to make you feel like that)
And I
(Just wish that I didn't feel like there was something I missed)
And I
(Take back all the things that I said to you)
And I'd give it all away
Just to have somewhere to go to
Give it all away
To have someone to come home to
This is my December
This is my time of the year
This is my December
This is all so clear
Give it all away
Just to have somewhere to go to
Give it all away
To have someone to come home to
© KENJI KOBAYASHI MUSIC; ZOMBA SONGS INC; ROB BOURDON MUSIC; ZOMBA ENTERPRISES INC; NONDISCLOSURE AGREEMENT MUSIC; BIG BAD MR HAHN MUSIC;

Latest News for: valence bond theory, hybrid orbitals, and molecular orbital theory

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NEET UG 2025 Syllabus Announced, check subject-wise topics for Physics, Chemistry and Biology here

The Times of India 17 Dec 2024

... Molecular Orbital Electronic Configurations Of Homonuclear Diatomic Molecules, Bond Order, Bond Length, Bond Energy, Elementary Idea Of Metallic Bonding, Hydrogen Bonding And Its ApplicationsUnit 9.

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