Chemical Bonding Interactive Videos
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9th Grade - 10th Grade
Molecular Geometry Analysis - VSEPR Theory - Chemical Bonding
Interactive Video
Molecular Geometry Analysis - VSEPR Theory - Chemical Bonding
9th Grade - 10th Grade
Chemistry
Expand comprehension of molecular shapes by studying VSEPR theory, with an emphasis on exceptions to the octet rule and variations in bond angles across different molecular structures. This will enhance the ability to predict molecular geometry and understand how lone pairs influence molecular shape and bond angles.
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10th Grade - 12th Grade
Molecular Shape Prediction - VSEPR Theory - Molecular Geometry
Interactive Video
Molecular Shape Prediction - VSEPR Theory - Molecular Geometry
10th Grade - 12th Grade
Chemistry
Explore the VSEPR theory, focusing on hybridization, bond angles, and atomic orbitals to explain and predict molecular geometries. Gain skills in analyzing molecular shapes and understanding how electron repulsion influences their formation.
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11th Grade - University
Visualizing Molecular Shapes - VSEPR Theory - Molecular Geometry
Interactive Video
Visualizing Molecular Shapes - VSEPR Theory - Molecular Geometry
11th Grade - University
Science, Chemistry, Physics, Biology
Understand the fundamentals of VSEPR theory and molecular geometry to comprehend how electron domain geometry and hybridization influence molecular shapes. Acquire the ability to predict molecular structures and bond angles, enhancing skills in chemistry problem-solving and analysis.
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9th Grade - 10th Grade
Understanding Electron Pair Repulsion - VSEPR Theory - Molecular Geometry
Interactive Video
Understanding Electron Pair Repulsion - VSEPR Theory - Molecular Geometry
9th Grade - 10th Grade
Chemistry
Explore VSEPR Theory to understand the impact of electron pair repulsion on molecular geometry, with a focus on SF4. Gain insights into determining molecular shapes and analyze how lone pairs influence geometry.
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11th Grade - University
[Practicing Molecular Geometry - VSEPR Theory - Chemistry Concepts]
Interactive Video
[Practicing Molecular Geometry - VSEPR Theory - Chemistry Concepts]
11th Grade - University
Chemistry, Science, Physics
Expand understanding of molecular geometry using VSEPR theory by examining electron pair arrangements and hybridization. Learners will develop the ability to predict molecular shapes and hybridization states, enhancing analytical skills in chemical bonding.
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9th Grade - 10th Grade
Covalent Bonding - Carbon Dioxide Molecule Structure - Chemical Bonding & Molecular Geometry
Interactive Video
Covalent Bonding - Carbon Dioxide Molecule Structure - Chemical Bonding & Molecular Geometry
9th Grade - 10th Grade
Chemistry
Explore the complexities of covalent bonding in the carbon dioxide molecule, focusing on its structural elements and hybridization processes. Gain a deeper understanding of molecular structures and enhance the ability to recognize the properties and behaviors of molecules like CO2, including its polarity and geometric configuration.
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9th Grade - 12th Grade
Chemical Bonding Principles - Atomic Interactions - Molecular Structure
Interactive Video
Chemical Bonding Principles - Atomic Interactions - Molecular Structure
9th Grade - 12th Grade
Chemistry, Science
Understand essential concepts of chemical bonding, focusing on how atoms achieve stability through ionic, covalent, and metallic bonds. Gain the ability to identify bonds based on electron interactions and predict molecular behavior, as well as comprehend the practical applications of these principles.
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11th Grade - University
Understanding Intermolecular Forces - London Dispersion Forces - Chemistry Concepts
Interactive Video
Understanding Intermolecular Forces - London Dispersion Forces - Chemistry Concepts
11th Grade - University
Physics, Science, Chemistry
Understand the fundamental principles of London dispersion forces and their significance in molecular interactions. Gain insights into the formation of temporary dipoles and examine how these forces influence the properties of substances such as noble gases, enhancing comprehension of molecular physics.
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9th Grade
Understanding VSEPR Theory - Molecular Geometry & Hybridization Concepts
Interactive Video
Understanding VSEPR Theory - Molecular Geometry & Hybridization Concepts
9th Grade
Science
Explore VSEPR theory principles to determine molecular geometry and hybridization. Gain understanding of electron domains, angle types, and hybridization, enhancing prediction of molecular shapes and bonding behaviors.
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9th Grade - 12th Grade
Dipole-Dipole Forces - Molecular Interactions - Chemical Bonding
Interactive Video
Dipole-Dipole Forces - Molecular Interactions - Chemical Bonding
9th Grade - 12th Grade
Chemistry, Physics, Science
Explore the dynamics of dipole-dipole forces and the interaction of polar molecules, while distinguishing these forces from other types. Gain insights into molecular polarity, the influence of electronegativity, and the importance of molecular shapes in defining polar interactions.
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11th Grade - 12th Grade
Molecular Orbital Concepts - Electron Delocalization - Chemical Bonding
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Molecular Orbital Concepts - Electron Delocalization - Chemical Bonding
11th Grade - 12th Grade
Chemistry
Examine the principles of Molecular Orbital Theory, emphasizing electron delocalization while contrasting with Valence Bond Theory. Gain a comprehensive understanding of how the constructive interference of atomic orbits leads to the formation of bonding molecular orbitals. Predict molecular properties such as bond order and magnetism through this exploration.
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6th Grade - 10th Grade
Understanding Valence Electrons - Lewis Dot Structures - Molecular Chemistry
Interactive Video
Understanding Valence Electrons - Lewis Dot Structures - Molecular Chemistry
6th Grade - 10th Grade
Chemistry
Explore the construction and interpretation of Lewis dot structures, focusing on valence electrons and their importance in molecular chemistry. Develop proficiency in representing atoms and compounds, predicting molecular geometry, and understanding electron arrangements to enhance comprehension of chemical bonding and structure.
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6th Grade - 10th Grade
Valence Electrons and Electron Configuration - Lewis Dot Structures - Chemical Bonding
Interactive Video
Valence Electrons and Electron Configuration - Lewis Dot Structures - Chemical Bonding
6th Grade - 10th Grade
Chemistry
Explore Lewis Dot Structures, focusing on the concept of valence electrons and their role in electron configurations. Gain insight into visual representations of atoms to enhance understanding of chemical bonding and develop the ability to predict molecular structures effectively.
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11th Grade - 12th Grade
Molecular Theory Application - Molecular Orbital Theory - Chemical Bonding
Interactive Video
Molecular Theory Application - Molecular Orbital Theory - Chemical Bonding
11th Grade - 12th Grade
Chemistry
Explore the fundamentals and applications of Molecular Orbital Theory, including key concepts such as electron configuration and chemical bonding principles. Gain a solid understanding of how molecular orbitals form and influence molecular stability and paramagnetism.
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9th Grade - 10th Grade
[Formal Charge Calculation - Resonance Structures - Chemical Bonding]
Interactive Video
[Formal Charge Calculation - Resonance Structures - Chemical Bonding]
9th Grade - 10th Grade
Chemistry
Explore the core concepts of resonance structures, with a focus on bond representation and formal charge calculations in chemistry. Mastering these principles enables the prediction of molecular stability and the effective analysis of chemical bonding.
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11th Grade - University
Valence Bond and Molecular Orbital Theories - s-p Mixing in Molecular Structures
Interactive Video
Valence Bond and Molecular Orbital Theories - s-p Mixing in Molecular Structures
11th Grade - University
Science, Physics, Chemistry
Explore the key differences between valence bond theory and molecular orbital theory, with a focus on the phenomena of s-p mixing in molecular structures. Understand the principles that govern orbital filling and their effects on molecular stability and behavior. Learners will gain insights into how these theories explain the electronic structure of molecules and predict chemical bonding and reactivity. The learning outcomes include a comprehensive understanding of both theories, their approach to chemical bonding, and how s-p mixing influences the electronic configuration and properties of molecules.
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9th Grade - 10th Grade
Understanding Intermolecular Forces - Polarity and Dipole Interactions - Molecular Chemistry
Interactive Video
Understanding Intermolecular Forces - Polarity and Dipole Interactions - Molecular Chemistry
9th Grade - 10th Grade
Chemistry
Examine the principles of intermolecular forces with a focus on hydrogen chloride (HCl), including its polarity and dipole-dipole interactions. Understand why HCl is a polar molecule by investigating the influence of molecular geometry on intermolecular forces. Enhance comprehension of essential chemical interactions through this exploration.
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10th Grade - 12th Grade
Intermolecular Forces - London Dispersion - Chemistry
Interactive Video
Intermolecular Forces - London Dispersion - Chemistry
10th Grade - 12th Grade
Chemistry, Physics, Science
Examine the fundamentals and processes of London dispersion forces, a key concept in the study of intermolecular attractions. Gain an understanding of the formation of temporary dipoles and their impact on molecular interactions. Develop the ability to explain the correlation between atomic properties and dispersion forces effectively.
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11th Grade - University
Electron Configuration - Lewis Dot Structures - Chemical Bonding
Interactive Video
Electron Configuration - Lewis Dot Structures - Chemical Bonding
11th Grade - University
Physics, Business, Chemistry, Science
Understand valence electron arrangements and their significance in chemical bonding through the principles of Lewis Dot Structures. Develop skills in constructing Lewis structures, identifying sigma and pi bonds, and assessing changes in formal charge within molecular ions.
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9th Grade - 10th Grade
Resonance Analysis - Acetate Ion Structures - Organic Chemistry
Interactive Video
Resonance Analysis - Acetate Ion Structures - Organic Chemistry
9th Grade - 10th Grade
Chemistry
Analyze the derivation and resonance structures of the acetate ion, emphasizing its chemical properties and configurations. Gain insights into identifying and explaining resonance, understanding chemical bonding in organic ions, and recognizing the role of resonance in enhancing molecular stability.
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