Curriculum
- 10 Sections
- 90 Lessons
- 10 Weeks
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- CH # 1 Basic concepts8
- CH # 2 Experimental Techniques of in Chemistry4
- Gases13
- 3.0Properties of states of matter | Units of Pressure | STP | Gas laws
- 3.1Boyle’s law
- 3.2Charle’s law
- 3.3General gas equation
- 3.4values of ideal gas constant R
- 3.5Dalton’s law of partial pressure
- 3.6Applications of Dalton’s law of partial pressure
- 3.7Kinetic Molecular Theory & Explanation of Gas laws by KMT
- 3.8Kinetic Interpretation of Temperature
- 3.9Graham’s law of diffusion
- 3.10Liquefaction of Gases | Critical Temperature | Linde’s Method
- 3.11Non-ideal behavior of gases
- 3.12Vander Waal’s equation for real gases | Ideal & non-ideal gases | Excluded volume
- CH # 4 Liquids and Solids15
- 4.0Dipole-dipole Forces | Debye Forces
- 4.1London dispersion forces
- 4.2Hydrogen Bonding | Affect of H-bonding on B.P & Viscosity and Acidic strength of HF
- 4.3Effect of H-bonding on thermodynamic Properties of covalent Hydrides
- 4.4Effect of H-bonding on solubility & Structure of ice
- 4.5Effect of H-bonding on Cleansing action of soap،biological molecules ,paints,dyes and textile fibers
- 4.6Evaporation | Vapour Pressure | Saturated Vapour Pressure | Condensation
- 4.7Manometric Method | Boiling point | B.P & External Pressure | Vapour Pressure
- 4.8Energetics of phase change | ∆Hf ∆Hv | ∆Hs | Dynamic equilibrium
- 4.9Liquid crystals & their applications
- 4.10Crystalline solids & Amorphous solids | Anisotropy | Crystallites
- 4.11Symmetry | Isomorphism | Polymorphism | Allotropy | Transition Temperature
- 4.12Molecular solids | Theories of Metallic Bonding
- 4.13Structure of NaCl | Ionic Solids | Lattice energy
- 4.14Properties of Metals | Metallic conduction | Thermal Conduction
- CH#5 Atomic structure19
- 5.1Atomic structure
- 5.2Atomic structure (2)
- 5.3Atomic structure (3)
- 5.4Magnetic Quantum Number | Shapes of Orbitals | Degenerate Orbitals
- 5.5Azimuthal Quantum Number | Atomic Structure
- 5.6Concept of Orbital | Principle Quantum Number
- 5.7Heisensberg Uncertainity Principle | Compton’s Effect
- 5.8Wave-nature Duality | de-Broglie’s Concept | Divisson & Germer Experiment
- 5.9Defects of Bohr’s Atomic Model | Zeeman Effect | Starck Effect
- 5.10Calculation of wave number of photons of different spectral lines | Limiting lines of Lymen Series
- 5.11Hydrogen Spectrum | Spectral lines | Atomic Structure
- 5.12X-rays | Origin of X-rays | Moseley’s law
- 5.13Spectrum | Continuous & Line Spectrum | Atomic absorption & Emission Spectrum
- 5.14Energy of Revolving electron | Atomic Structure
- 5.15Bohr’s Atomic Model | Calculation of Radius of nth orbits
- 5.16Rutherford’s Model | Planck’s Quantum Theory
- 5.17Measurement of e/m of electron | Milliken’s oil method | Mass of electron
- 5.18Discovery of Proton & Neutron | Atomic Structure
- 5.19Atomic structure | Discovery of electron | Properties of Cathode rays
- CH # 6 Chemical Bonding9
- CH# 7 Thermochemistry9
- 7.0Born-Haber Cycle | Lattice energy | Hess’s law
- 7.1Hess’s law of constant heat of summition
- 7.2Glass Calorimeter | Bomb Calorimeter | ∆H=∆E | Calorific Value
- 7.3Enthalpy of combustion | Enthalpy of atomization | Enthalpy of Neutralization | Enthalpy of Solution
- 7.4Standard enthalpy of reaction | Standard enthalpy of formation
- 7.5Thermochemistry | Heat of reaction | Exothermic reaction | Endothermic reaction
- 7.6Spontaneous reaction | Non-spontaneous reaction | Thermodynamics
- 7.7Internal energy | Ist law of thermodynamics | ∆E=q+w |
- 7.8Enthalpy | heat content | ∆H=∆E+P∆V | Thermochemistry
- CH#9 Solutions4
- CH # 10 Electrochemistry7
- CH # 11 Chemical Kinetics2