PHYSICS
90 Classes
MATHEMATICS
54 Classes
CHEMISTRY
112 Classes
ENGLISH
24 Classes
NEPALI
5 Classes
ZOOLOGY
10 Classes
1. FUNDAMENTAL PRINCIPLES OF ORGANIC CHEMISTRY
9.0. COVALENT BOND FISSION
8.0. ATTACKING REAGENT
7.0. INDUCTIVE EFFECT
1.0. IUPAC SYSTEM
2.1. NOMENCLATURE OF HYDROCARBONS
3.0. NOMENCLATURE OF ORGANIC COMPOUNDS HAVING ONE FUNCTIONAL GROUP
4.0. NOMENCLATURE OF ORGANIC COMPOUNDS: POLYFUNCTIONAL GROUPS
6.0. DETECTION OF FOREIGN ELEMENTS
10.0. STRUCTURAL ISOMERISM AND ITS TYPES
11.0. RESONANCE EFFECT
2. HYDROCARBONS
3. INTRODUCTION TO HYDROCARBONS
No chapters available for this chapters.
4. STOICHIOMETRY
1.0. AVOGADRO'S HYPOTHESIS
2.0. APPLICATION OF AVOGADRO'S HYPOTHESIS
3.0. DALTON'S ATOMIC THEORY
4.0. CALCULATIONS BASED ON MOLE CONCEPT
5.1. LAWS OF STOICHIOMETRY
5.2. LAWS OF STOICHIOMETRY
6.0. YIELD OF A REACTION
7.0. DETERMINATION OF EMPIRICAL & MOLECULAR FORMULA FROM % COMPOSITION
8.0. MOLE CONCEPT
5. OXIDATION AND REDUCTION
1.0. CONCEPT OF OXIDATION AND REDUCTION
2.0. OXIDATION NUMBER
3.0. OXIDIZING AGENT, REDUCING AGENT AND REDOX REACTION
4.0. BALANCING REDUX REACTION BY OXIDATION NUMBER METHOD
5.0. BALANCING REDOX REACTION BY ION ELECTRON METHOD
6.0. QUALITATIVE ASPECT OF ELECTROLYSIS
7.0. FARADAY'S FIRST LAW OF ELECTROLYSIS
8.0. FARADAY'S SECOND LAW OF ELECTROLYSIS
9.0. CALCULATION RELATED TO FARADAY'S LAW OF ELECTROLYSIS
6. STATES OF MATTER
1.1. BOYLE'S LAW
1.2. CHARLE'S LAW
1.3. AVOGADRO'S LAW
1.4. COMBINED GAS EQUATION
1.5. DALTONS LAW OF PARTIAL PRESSURE
1.7. IDEAL GAS EQUATION
1.8. NUMERICALS OF IDEAL GAS EQUATION
1.9. DEVIATION OF REAL GAS FROM IDEAL BEHAVIOUR
1.10. KINETIC THEORY OF GAS AND ITS POSTULATE
9.9. NUMERICALS OF CHARLE'S LAW
9.0. CRYSTALLINE SOLID AND AMORPHOUS SOLID
9.0. NUMERICALS OF DALTON'S LAW OF PARTIAL PRESSURE
9.0. GRAHAM'S LAW OF DIFFUSION
10.0. NUMERICALS OF COMBINED GAS EQUATION
7. CLASSIFICATION OF ELEMENTS AND PERIODIC TABLE
8. ATOMIC STRUCTURE
9. BASIC CONCEPT OF ORGANIC CHEMISTRY
10. CHEMICAL BONDING AND SHAPES OF MOLECULES
1.0. VALENCE SHELL, VALENCE ELECTRON AND OCTET THEORY
2.0. IONIC BONDS AND ITS PROPERTIES
3.0. COVALENT BOND AND ITS PROPERTIES
4.0. CO-ORDINATE COVALENT BOND AND IT'S PROPERTIES
5.0. LEWIS DOT STRUCTURE
6.1. VSEPR THEORY
7.1. RESONANCE
8.0. BOND CHARACTERISTICS
9.0. HYBRIDIZATION
10.0. VANDERWAL'S FORCE AND MOLECULAR SOLID
11.0. METALLIC BONDING AND PROPERTIES OF METALLIC SOLID
12.0. VALANCE BOND THEORY
12.1. HYDROGEN BONDING
11. AROMATIC HYDROCARBONS
12. CHEMISTRY OF NON METALS
1.0. HYDROGEN
2.0. OXYGEN
4.0. NITROGEN (HNO3) PART 1
4.1. NITROGEN (HNO3)-PART 2
5.0. PROPERTIES AND USES OF H2S GAS.
6.0. CARBON COMPOUNDS (CO)
7.0. ISOTOPES OF HYDROGEN AND IRS APPLICATIONS.
8.0. NITROGEN COMPOUND-AMMONIA GAS PREPARATION .
9.0. HALOGENS INTRODUCTION, PREPARATIONS AND THEIR CHARACTERISTICS
13. CHEMISTRY OF METALS
1.0. TYPES OF METALLURGY
2.0. GENERAL PRINCIPLE OF EXTRACTION OF METALS PART 1
3.0. DIFFERENT TERMS USED IN METALLURGY
4.0. SODIUM HYDROXIDE
5.0. EXTRACTION OF SODIUM BY DOWN'S PROCESS
6.6. COMPOUNDS OF CALCIUM AND MAGNESIUM
7.7. PROPERTIES AND USES OF SODIUM
8.8. SODIUM CARBONATE
9.9. ALKALINE EARTH METALS
10.10. CRYSTALLIZATION, CRYSTAL LATTICE AND UNIT CELL
11.11. PERIODIC TREND IN IONIZATION POTENTIAL
12.12. SOLUBILITY AND THERMAL STABILITY OF OXOSALT OF ALKALINE EARTH METAL
13.0. GENERAL PRINCIPLE OF EXTRACTION OF METAL PART 2
4.0. ALKALI METALS
14. CHEMICAL EQUILIBRIUM
15. FOUNDATION AND FUNDAMENTAL
16. INTRODUCTION TO BIO INORGANIC CHEMISTRY
17. MODERN CHEMICAL MANUFACTURE