Course Curriculum

Chemistry I – Unit 1A: Atomic Structure (part 1) 00:09:00
•Describe the different models of an atom. •Recall Thomson's atomic model. •Discuss Rutherford's model of an atom and its defects. •Explain about Bohr's model of an atom. •Recall distribution of electrons in different orbits. •Distinguish between atomic number, mass number, isotopes, and isobars.
Chemistry I – Unit 1B: Atomic Structure (part 2) 00:06:00
•Describe the different models of an atom. •Recall Thomson's atomic model. •Discuss Rutherford's model of an atom and its defects. •Explain about Bohr's model of an atom. •Recall distribution of electrons in different orbits. •Distinguish between atomic number, mass number, isotopes, and isobars.
Chemistry I – Unit 2: The Periodic Table 00:10:00
•Describe the early attempts at classifying elements. •Explain Mendeleev's periodic table. •Explain the modern periodic table.
Chemistry I – Unit 3A: Chemical Bonding (part 1) 00:08:00
•Define chemical bonding. •Understand octet rule and Lewis symbols. •Define ionic bond. •Know about factors affecting the ionic bond. •Explain properties of ionic compounds. •Define bond parameters. •Describe resonance structure. •Know about polarity of bonds.
Chemistry I – Unit 3B: Chemical Bonding (part 2) 00:06:00
•Define chemical bonding. •Understand octet rule and Lewis symbols. •Define ionic bond. •Know about factors affecting the ionic bond. •Explain properties of ionic compounds. •Define bond parameters. •Describe resonance structure. •Know about polarity of bonds.
Chemistry I – Unit 3C: Chemical Bonding (part 3) 00:14:00
•Explain VSEPR theory. •Describe valence bond theory. •Define hybridization. •Know about types of hybridization. •Explain molecular orbital theory. •Understand electronic configuration and molecular behavior. •Analyze bonding in some homonuclear diatomic molecules. •Define hydrogen bonding.
Chemistry I – Unit 3D: Chemical Bonding (part 4) 00:07:00
•Explain VSEPR theory. •Describe valence bond theory. •Define hybridization. •Know about types of hybridization. •Explain molecular orbital theory. •Understand electronic configuration and molecular behavior. •Analyze bonding in some homonuclear diatomic molecules. •Define hydrogen bonding.
Chemistry I – Unit 4: Chemical Reactions 00:18:00
•Recognize chemical changes. •Write equations to represent a chemical reaction. •Classify chemical reactions. •List examples for different types of chemical reactions.
Chemistry I – Unit 5A: Stoichiometry (part 1) 00:08:00
•Know about laws of chemical combination like law of conservation of mass and law of constant proportion. •Discuss Dalton's atomic theory. •Understand about atoms, molecules, and mole.
Chemistry I – Unit 5B: Stoichiometry (part 2) 00:08:00
•Understand ions of different compounds. •Calculate molecular mass and write molecular formulae of different compounds.
Chemistry I – Unit 6: States of Matter 00:06:00
•Understand types of matter. •Identify states of matter. •How the state of matter can be changed by changing temperature or pressure. •Learn about sublimation and evaporation process by different activities.
Chemistry I – Unit 7A: Solutions (part 1) 00:12:00
•Define solutions. •Explain components of binary solution. •Know about types of solutions. •Express concentration of solutions. •Calculate normality, molarity, and molality. •Calculate mole fraction. •Understand solubility. •Analyze solid-liquid solutions. •Analyze gas-liquid solutions. •Define Henry’s Law. •Know about applications of Henry’s Law.
Chemistry I – Unit 7B: Solutions (part 2) 00:08:00
•Define solutions. •Explain components of binary solution. •Know about types of solutions. •Express concentration of solutions. •Calculate normality, molarity, and molality. •Calculate mole fraction. •Understand solubility. •Analyze solid-liquid solutions. •Analyze gas-liquid solutions. •Define Henry’s Law. •Know about applications of Henry’s Law.
Chemistry I – Unit 7C: Solutions (part 3) 00:11:00
•Define vapor pressure. •Explain Raoult’s Law •Describe Raoult’s Law for solution of two volatile liquids. •Differentiate ideal and non-ideal solutions. •Understand positive and negative deviation. •Know colligative properties. •Define osmosis and reverse osmosis. •Understand abnormal molar masses. •Calculate Vant Hoff’s factor.
Chemistry I – Unit 7D: Solutions (part 4) 00:07:00
•Define vapor pressure. •Explain Raoult’s Law •Describe Raoult’s Law for solution of two volatile liquids. •Differentiate ideal and non-ideal solutions. •Understand positive and negative deviation. •Know colligative properties. •Define osmosis and reverse osmosis. •Understand abnormal molar masses. •Calculate Vant Hoff’s factor.
Chemistry I – Unit 7E: Solutions (part 5) 00:04:00
•Define vapor pressure. •Explain Raoult’s Law •Describe Raoult’s Law for solution of two volatile liquids. •Differentiate ideal and non-ideal solutions. •Understand positive and negative deviation. •Know colligative properties. •Define osmosis and reverse osmosis. •Understand abnormal molar masses. •Calculate Vant Hoff’s factor.
Chemistry I – Unit 8: Acids and Bases 00:13:00
•Describe the chemical properties of acids and bases. •Identify the common properties of acids and bases. •Describe the strength of acids and bases. •Explain salts.
Chemistry I – Unit 9A: Thermochemistry (part 1) 00:13:00
•Define thermodynamics. •Explain thermodynamic process. •Understand mode of transference of energy. •Describe internal energy. •Understand pressure-volume work. •Define enthalpy. •Differentiate extensive and intensive properties. •Calculate heat capacity.
Chemistry I – Unit 9B: Thermochemistry (part 2) 00:11:00
•Define thermodynamics. •Explain thermodynamic process. •Understand mode of transference of energy. •Describe internal energy. •Understand pressure-volume work. •Define enthalpy. •Differentiate extensive and intensive properties. •Calculate heat capacity.
Chemistry I – Unit 10A: Reaction Rates & Equilibrium (part 1) 00:12:00
•Explain equilibrium in physical state. •Explain equilibrium in dissolution of solid or gases in liquids. •Explain chemical equilibrium. •State law of chemical equilibrium. •Explain homogenous equilibria. •Explain heterogenous equilibria. •Discuss applications of equilibrium constant. •Discuss factors affecting equilibria.
Chemistry I – Unit 10B: Reaction Rates & Equilibrium (part 2) 00:10:00
•Explain equilibrium in physical state. •Explain equilibrium in dissolution of solid or gases in liquids. •Explain chemical equilibrium. •State law of chemical equilibrium. •Explain homogenous equilibria. •Explain heterogenous equilibria. •Discuss applications of equilibrium constant. •Discuss factors affecting equilibria.
Chemistry I – Unit 11A: Electrochemistry I (part 1) 00:07:00
•Define electrochemistry. •Understand electrochemical cell. •Know significance of salt bridge. •Represent an electrochemical cell. •Define electrode potential. •Calculate emf of the cell. •Define standard hydrogen electrode. •Calculate Nernst equation. •Calculate Gibbs energy. •Classify electrolytes. •Calculate electrical resistance and conductance. •Calculate cell constant. •Explain Kohlrausch's law.
Chemistry I – Unit 11B: Electrochemistry I (part 2) 00:14:00
•Define electrochemistry. •Understand electrochemical cell. •Know significance of salt bridge. •Represent an electrochemical cell. •Define electrode potential. •Calculate emf of the cell. •Define standard hydrogen electrode. •Calculate Nernst equation. •Calculate Gibbs energy. •Classify electrolytes. •Calculate electrical resistance and conductance. •Calculate cell constant. •Explain Kohlrausch's law.
Chemistry I – Unit 11C: Electrochemistry I (part 3) 00:20:00
•Define electrochemistry. •Understand electrochemical cell. •Know significance of salt bridge. •Represent an electrochemical cell. •Define electrode potential. •Calculate emf of the cell. •Define standard hydrogen electrode. •Calculate Nernst equation. •Calculate Gibbs energy. •Classify electrolytes. •Calculate electrical resistance and conductance. •Calculate cell constant. •Explain Kohlrausch's law.
Chemistry I – Unit 11D: Electrochemistry I (part 4) 00:10:00
•Define electrochemistry. •Understand electrochemical cell. •Know significance of salt bridge. •Represent an electrochemical cell. •Define electrode potential. •Calculate emf of the cell. •Define standard hydrogen electrode. •Calculate Nernst equation. •Calculate Gibbs energy. •Classify electrolytes. •Calculate electrical resistance and conductance. •Calculate cell constant. •Explain Kohlrausch's law.
Chemistry I – Unit 12A: Electrochemistry II (part 1) 00:12:00
•Define electrolysis. •Analyze mechanism of electrolysis. •Understand Faraday's laws of electrolysis. •Define batteries. •Categorize batteries. •Know about fuel cell. •Define corrosion. •Analyze electrochemical theory of rusting. •Explain prevention of corrosion.
Chemistry I – Unit 12B: Electrochemistry II (part 2) 00:06:00
•Define electrolysis. •Analyze mechanism of electrolysis. •Understand Faraday's laws of electrolysis. •Define batteries. •Categorize batteries. •Know about fuel cell. •Define corrosion. •Analyze electrochemical theory of rusting. •Explain prevention of corrosion.
Chemistry I – Unit 13A: Organic Chemistry I (part 1) 00:09:00
•Define tetravalency of carbon. •Describe formation of bond. •Represent organic compound through complete, condensed, and bond line structural formulas. •Represent organic compound in 3D. •Classify organic compound. •Describe nomenclature of organic compounds.
Chemistry I – Unit 13B: Organic Chemistry I (part 2) 00:10:00
•Define tetravalency of carbon. •Describe formation of bond. •Represent organic compound through complete, condensed, and bond line structural formulas. •Represent organic compound in 3D. •Classify organic compound. •Describe nomenclature of organic compounds.
Chemistry I – Unit 14A: Organic Chemistry II (part 1) 00:07:00
•Describe isomerism and its types. •Explain fundamental concepts in organic reaction mechanism.
Chemistry I – Unit 14B: Organic Chemistry II (part 2) 00:07:00
•Describe isomerism and its types. •Explain fundamental concepts in organic reaction mechanism.
Chemistry I – Unit 15A: Organic Chemistry III (part 1) 00:13:00
•Describe methods of purification of organic compounds. •Explain qualitative analysis of organic compounds. •Describe quantitative analysis.
Chemistry I – Unit 15B: Organic Chemistry III (part 2) 00:11:00
•Describe methods of purification of organic compounds. •Explain qualitative analysis of organic compounds. •Describe quantitative analysis.
24 STUDENTS ENROLLED
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