Course Features
- Lectures 389
- Quizzes 0
- Duration 50 hours
- Skill level All levels
- Language English
- Students 1
- Assessments Yes
-
Class 12 Physics Book Part-1
- Chapter 1 โ Electric Charges and Fields : Introduction to Electricity – Electric Charges and Fields
- Chapter 1 โ Electric Charges and Fields : Conductors and Insulators
- Chapter 1 โ Electric Charges and Fields : Charging by Induction
- Chapter 1 โ Electric Charges and Fields : Basic Properties of Electric Charge
- Chapter 1 โ Electric Charges and Fields : Coulomb’s Law
- Chapter 1 โ Electric Charges and Fields : Force Between Multiple Charges
- Chapter 1 โ Electric Charges and Fields : Electric Field
- Chapter 1 โ Electric Charges and Fields : Numericals on Electric Field
- Chapter 1 โ Electric Charges and Fields : Electric Field Due to a System of Charges
- Chapter 1 โ Electric Charges and Fields : Numericals on Electric Field Due to a System of Changes (Part 1)
- Chapter 1 โ Electric Charges and Fields : Numericals on Electric Field Due to a System of Changes (Part 2)
- Chapter 1 โ Electric Charges and Fields : Uniform Electric Field
- Chapter 1 โ Electric Charges and Fields : Physical Significance of Electric Field
- Chapter 1 โ Electric Charges and Fields : Electric Field Lines
- Chapter 1 โ Electric Charges and Fields : Electric Dipole
- Chapter 1 โ Electric Charges and Fields : Field of an Electric Dipole
- Chapter 1 โ Electric Charges and Fields : Numericals on Electric Dipole
- Chapter 1 โ Electric Charges and Fields : Dipole in a Uniform External Field
- Chapter 1 โ Electric Charges and Fields : Continuous Distribution of Charge (Part 1)
- Chapter 1 โ Electric Charges and Fields : Continuous Distribution of Charge (Part 2)
- Chapter 1 โ Electric Charges and Fields : Continuous Distribution of Charge (Part -3)
- Chapter 1 โ Electric Charges and Fields : Electric Flux
- Chapter 1 โ Electric Charges and Fields : Applications of Electric Flux
- Chapter 1 โ Electric Charges and Fields : Gauss’s Law
- Chapter 1 โ Electric Charges and Fields : Numericals on Gauss Law
- Chapter 1 โ Electric Charges and Fields : Applications of Gauss Law
- Chapter 1 โ Electric Charges and Fields : What is Coulombs Law
- Chapter 1 โ Electric Charges and Fields : How Electric Fields Work
- Chapter 1 โ Electric Charges and Fields : Numericals on Superposition Principle (Part 1)
- Chapter 1 โ Electric Charges and Fields : Numericals on Superposition Principle (Part 2)
- Chapter 2- Electrostatic Potential and Capacitance : How Electric Potential is Created
- Chapter 2- Electrostatic Potential and Capacitance : Numericals on Potenial Difference (Part 1)
- Chapter 2- Electrostatic Potential and Capacitance : Numericals on Potenial Difference (Part 2)
- Chapter 2- Electrostatic Potential and Capacitance : Numericals on Potenial Difference (Part 3)
- Chapter 2- Electrostatic Potential and Capacitance : Potential Due to Electric Dipole
- Chapter 2- Electrostatic Potential and Capacitance : Relation Between Intensity of Electric Field and Electric Potential
- Chapter 2- Electrostatic Potential and Capacitance : Numericals on Relation Between Electric Field and Potential
- Chapter 2- Electrostatic Potential and Capacitance : Electric Potential Due to a Continuous Distribution of Charges
- Chapter 2- Electrostatic Potential and Capacitance : Electrical Capacitance
- Chapter 2- Electrostatic Potential and Capacitance : Capacity of Capacitors Numericals (Part 1)
- Chapter 2- Electrostatic Potential and Capacitance : Combination of Capacitors
- Chapter 2- Electrostatic Potential and Capacitance : Equivalent Capacitance Simple Circuits
- Chapter 2- Electrostatic Potential and Capacitance : Equivalent Capacitance Concept of Same Potential
- Chapter 2- Electrostatic Potential and Capacitance : Equivalent Capacitance Wheatstone Bridge
- Chapter 2- Electrostatic Potential and Capacitance : Equivalent Capacitance: Concept of Symmetry
- Chapter 2- Electrostatic Potential and Capacitance : How to Find Potential and Charge Across Capacitors
- Chapter 2- Electrostatic Potential and Capacitance : Numericals on Combination of Capacitors
- Chapter 2- Electrostatic Potential and Capacitance : Energy of a Charged Conductor
- Chapter 2- Electrostatic Potential and Capacitance : Numericals of Energy of Capacitors (Part 1)
- Chapter 2- Electrostatic Potential and Capacitance : Numericals of Energy of Capacitors (Part 2)
- Chapter 3- Current Electricity : Electric Current Explained
- Chapter 3- Current Electricity : Numericals on Electric Current and Drift Velocity
- Chapter 3- Current Electricity : Electrical Resistance and Ohm’s Law
- Chapter 3- Current Electricity : Numericals on Resistance and Ohmโs Law (Part 1)
- Chapter 3- Current Electricity : Numericals on Resistance and Ohmโs Law (Part 2)
- Chapter 3- Current Electricity : Numericals on Resistance and Ohmโs Law (Part 3)
- Chapter 3- Current Electricity : Combination of Resistances
- Chapter 3- Current Electricity : Equivalent Resistance – Simple Circuit
- Chapter 3- Current Electricity : Equivalent Resistance – Concept of Same Potential
- Chapter 3- Current Electricity : Equivalent Resistance – Wheatstone Bridge
- Chapter 3- Current Electricity : Equivalent Resistance – Concept of Symmetry
- Chapter 3- Current Electricity : Equivalent Resistance-Concept of Symmetry (Special)
- Chapter 3- Current Electricity : Star – Delta Method
- Chapter 3- Current Electricity : How to Find Current and Potential Across Resistor
- Chapter 3- Current Electricity : Numericals on Combination of Resistances
- Chapter 3- Current Electricity : Carbon Resistance Colour Code
- Chapter 3- Current Electricity : Battery and EMF
- Chapter 3- Current Electricity : Combination of Cells in Series and Parallel
- Chapter 3- Current Electricity : Battery and EMF Numericals
- Chapter 3- Current Electricity : Battery and EMF Numericals (Part 2)
- Chapter 3- Current Electricity : Kirchhoffโs Laws
- Chapter 3- Current Electricity : Numericals on Kirchhoffโs Law (Part 1)
- Chapter 3- Current Electricity : Numericals On Kirchhoffโs Law (Part 2)
- Chapter 3- Current Electricity : Measuring Instruments (Part 1)
- Chapter 3- Current Electricity : Measuring Instruments (Part 2)
- Chapter 3- Current Electricity : Numericals on Measuring Instruments (Part 1)
- Chapter 3- Current Electricity : Numericals on Measuring Instruments (Part 2)
- Chapter 3- Current Electricity : Heating Effect of Current
- Chapter 3- Current Electricity : Numerical On Thermal Effect Of Current
- Chapter 4- Moving Charges and Magnetism : Biot-Savart Law : Magnetic Field due to Straight Wire
- Chapter 4- Moving Charges and Magnetism : Magnetic Field due to Circular Current Carrying Loop n Arc
- Chapter 4- Moving Charges and Magnetism : Magnetic Field on the axis of a Circular Current Loop
- Chapter 4- Moving Charges and Magnetism : Ampere’s Circuital Law :Magnetic Field due to Infinte wire n Cylinder
- Chapter 4- Moving Charges and Magnetism : Solenoid I Magnetic Field due to Solenoid : Ampere’s Law
- Chapter 4- Moving Charges and Magnetism : Toroid I Magnetic Field due to Toroid : Ampere’s Law
- Chapter 4- Moving Charges and Magnetism : Force on a Moving Charge in Magnetic Field : Magnetic Force
- Chapter 4- Moving Charges and Magnetism : Motion of a charged Particle in Magnetic Field
- Chapter 4- Moving Charges and Magnetism : Helical Path of Charge Particle in Magnetic Field
- Chapter 4- Moving Charges and Magnetism : Lorentz Force – Motion of Charge in Electro-Magnetic Field
- Chapter 4- Moving Charges and Magnetism : Cyclotron : Construction-Working-Uses-Limitations
- Chapter 4- Moving Charges and Magnetism : Force on a Current Carrying Conductor in Magnetic Field
- Chapter 4- Moving Charges and Magnetism : Force Between Parallel infinite Current Carrying Conductor
- Chapter 4- Moving Charges and Magnetism : Magnetic Moment :Current Loop as Magnetic Dipole
- Chapter 4- Moving Charges and Magnetism : Torque on a Current Loop in Uniform Magnetic Field
- Chapter 4- Moving Charges and Magnetism : Moving Coil Galvanometer – Radial Field, Current n Voltage Senstivity
- Chapter 5- Magnetism and Matter : Introduction
- Chapter 5- Magnetism and Matter : The Bar Magnet
- Chapter 5- Magnetism and Matter : Magnetic Field due to a Magnetic Dipole
- Chapter 5- Magnetism and Matter : Torque on a Bar Magnet
- Chapter 5- Magnetism and Matter : Gauss’s Law For Magnetism
- Chapter 5- Magnetism and Matter : The Electrostatic Analogue of Magnetism
- Chapter 5- Magnetism and Matter : Intensity of Magnetisation
- Chapter 5- Magnetism and Matter : Magnetic Field of Earth : Terrestial Magnetism
- Chapter 5- Magnetism and Matter : Classification of Magnetic Materials
- Chapter 6- Electromagnetic Induction : Introduction
- Chapter 6- Electromagnetic Induction : Faraday’s Laws of Electromagnetic Induction
- Chapter 6- Electromagnetic Induction : Motional Electromotive Force
- Chapter 6- Electromagnetic Induction : Self Induction and Mutual Induction
- Chapter 6- Electromagnetic Induction : Grouping of Coils
- Chapter 6- Electromagnetic Induction : Eddy Currents
- Chapter 6- Electromagnetic Induction : Self Inductance of a Solenoid
- Chapter 6- Electromagnetic Induction : Energy Stored in an Inductor
- Chapter 6- Electromagnetic Induction : Retain in Memory
- Chapter 7- Alternating Current : Introduction
- Chapter 7- Alternating Current : Equation for Alternating Voltage
- Chapter 7- Alternating Current : Equation for Alternating Current
- Chapter 7- Alternating Current : A. C. Circuit Containing Resistance Only
- Chapter 7- Alternating Current : Average Value of Alternating EMF
- Chapter 7- Alternating Current : A.C. Circuit Containing Capacitance Only
- Chapter 7- Alternating Current : A.C. Circuit Containing Inductor Only
- Chapter 7- Alternating Current : LR Circuit with A.C. Source
- Chapter 7- Alternating Current : CR Circuit With A.C. Source
- Chapter 7- Alternating Current : LC Circuit with AC Source
- Chapter 7- Alternating Current : Alternating Current – Numerical (Part 1)
- Chapter 7- Alternating Current : Alternating Current – Numerical (Part 2)
- Chapter 7- Alternating Current : Alternating Current – Numerical (Part 4)
- Chapter 7- Alternating Current : Alternating Current – Numerical (Part 3)
- Chapter 7- Alternating Current : Alternating Current – Numerical (Part 5)
- Chapter 7- Alternating Current : LCR Circuit
- Chapter 7- Alternating Current : Electric Resonance
- Chapter 7- Alternating Current : Conceptual Questions (Set 1)
- Chapter 7- Alternating Current : Conceptual Questions (Set 2)
- Chapter 7- Alternating Current : Conceptual Questions (Set 3)
- Chapter 7- Alternating Current : Q Factor
- Chapter 7- Alternating Current : Parallel Resonance Circuit
- Chapter 7- Alternating Current : Resonance : Numerical
- Chapter 7- Alternating Current : Average Power Associated with Resistance
- Chapter 7- Alternating Current : Average Power Associated with Inductor
- Chapter 7- Alternating Current : Average Power Associated with Capacitor
- Chapter 7- Alternating Current : Practice Questions
- Chapter 7- Alternating Current : A.C Circuits : Retain in Memory
- Chapter 7- Alternating Current : Average Power in RLC Circuit
- Chapter 7- Alternating Current : Numerical on A.C Circuits
- Chapter 7- Alternating Current : Short Answer Type Questions
- Chapter 7- Alternating Current : Transformer
- Chapter 7- Alternating Current : Energy Losses in a Transformer
- Chapter 7- Alternating Current : Transformer : Practice Questions
- Chapter 7- Alternating Current : Formula List
- Chapter 8- Electromagnetic Waves : Introduction
- Chapter 8- Electromagnetic Waves : Displacement Current (Part 1)
- Chapter 8- Electromagnetic Waves : Displacement Current (Part 2)
- Chapter 8- Electromagnetic Waves : Ampere Maxwell’s Law
- Chapter 8- Electromagnetic Waves : Maxwell’s Equations and its Importance
- Chapter 8- Electromagnetic Waves : Electromagnetic Waves
- Chapter 8- Electromagnetic Waves : Nature of Electromagnetic Waves
- Chapter 8- Electromagnetic Waves : Electromagnetic Spectrum
-
Physics Book Part 2
- Chapter 9- Ray Optics and Optical Instruments : Introduction
- Chapter 9- Ray Optics and Optical Instruments : Reflection of Light
- Chapter 9- Ray Optics and Optical Instruments : Properties of Image Formed by a Plane Mirror
- Chapter 9- Ray Optics and Optical Instruments : Image Formation in Spherical Mirrors
- Chapter 9- Ray Optics and Optical Instruments : New Cartesian Sign Conventions
- Chapter 9- Ray Optics and Optical Instruments : Relation Between Radius of Curvature and Focal Length
- Chapter 9- Ray Optics and Optical Instruments : Mirror Equation for Concave Mirror
- Chapter 9- Ray Optics and Optical Instruments : Mirror Equation for Convex Miror
- Chapter 9- Ray Optics and Optical Instruments : Linear Magnification of Spherical Mirror
- Chapter 9- Ray Optics and Optical Instruments : Relation Between Speed of Object and Image
- Chapter 9- Ray Optics and Optical Instruments : Mirror : Practice Questions
- Chapter 9- Ray Optics and Optical Instruments : Mirror : Numerical Questions (Part 1)
- Chapter 9- Ray Optics and Optical Instruments : Mirror : Numerical Questions (Part 2)
- Chapter 9- Ray Optics and Optical Instruments : Mirror : Numerical Questions (Part 3)
- Chapter 9- Ray Optics and Optical Instruments : Mirror : Numerical Questions (Part 4)
- Chapter 9- Ray Optics and Optical Instruments : Refraction of Light and Laws of Refraction
- Chapter 9- Ray Optics and Optical Instruments : Refraction Through Rectangular Glass Slab
- Chapter 9- Ray Optics and Optical Instruments : Refraction of Light Through a Compound Plate
- Chapter 9- Ray Optics and Optical Instruments : Total Internal Reflection of Light
- Chapter 9- Ray Optics and Optical Instruments : Refraction : Numerical Questions
- Chapter 9- Ray Optics and Optical Instruments : Refraction : Conceptual Questions
- Chapter 9- Ray Optics and Optical Instruments : Refraction at Convex Surface
- Chapter 9- Ray Optics and Optical Instruments : Refraction at Concave Surface
- Chapter 9- Ray Optics and Optical Instruments : Lenses and Image Formation by Lens
- Chapter 9- Ray Optics and Optical Instruments : Lens Maker’s Formula for Convex Lens
- Chapter 9- Ray Optics and Optical Instruments : Lens Maker’s Formula for Concave Lens
- Chapter 9- Ray Optics and Optical Instruments : Lens Equation For Convex Lens
- Chapter 9- Ray Optics and Optical Instruments : Lens Equation For Concave Lens
- Chapter 9- Ray Optics and Optical Instruments : Linear Magnification by a Lens
- Chapter 9- Ray Optics and Optical Instruments : Power of Lens
- Chapter 9- Ray Optics and Optical Instruments : Lens : Numerical (Part 1)
- Chapter 9- Ray Optics and Optical Instruments : Lens : Numerical (Part 2)
- Chapter 9- Ray Optics and Optical Instruments : Lens : Numerical (Part 3)
- Chapter 9- Ray Optics and Optical Instruments : Lens : Numerical (Part 4)
- Chapter 9- Ray Optics and Optical Instruments : Combination of Thin Lenses in Contact
- Chapter 9- Ray Optics and Optical Instruments : Combination of Thin Lenses in Contact – Special Cases
- Chapter 9- Ray Optics and Optical Instruments : Combination of Lens : Numerical Questions
- Chapter 9- Ray Optics and Optical Instruments : Lens : Conceptual Questions (Part 1)
- Chapter 9- Ray Optics and Optical Instruments : Lens : Conceptual Questions (Part 2)
- Chapter 9- Ray Optics and Optical Instruments : Prism
- Chapter 9- Ray Optics and Optical Instruments : Prism Formula
- Chapter 9- Ray Optics and Optical Instruments : Thin Prism Formula
- Chapter 9- Ray Optics and Optical Instruments : Dispersion of Light By Prism
- Chapter 9- Ray Optics and Optical Instruments : Prism : Numerical Questions (Part 1)
- Chapter 9- Ray Optics and Optical Instruments : Prism : Numerical Questions (Part 2)
- Chapter 9- Ray Optics and Optical Instruments : Prism : Numerical Questions (Part 3)
- Chapter 9- Ray Optics and Optical Instruments : Prism : Conceptual Questions
- Chapter 9- Ray Optics and Optical Instruments : Combination of Two Prisms (Part 1)
- Chapter 9- Ray Optics and Optical Instruments : Combination of Two Prisms (Part 2)
- Chapter 9- Ray Optics and Optical Instruments : Compound Microscope
- Chapter 9- Ray Optics and Optical Instruments : Microscope : Numerical Questions
- Chapter 9- Ray Optics and Optical Instruments : Simple Microscope
- Chapter 9- Ray Optics and Optical Instruments : Astronomical Telescope (Part 1)
- Chapter 9- Ray Optics and Optical Instruments : Optical Instruments : Telescope
- Chapter 9- Ray Optics and Optical Instruments : Astronomical Telescope (Part 2)
- Chapter 9- Ray Optics and Optical Instruments : Telescope : Numerical Questions (Part 2)
- Chapter 9- Ray Optics and Optical Instruments : Ray Optics and Optical Instrument – Revision (Part 1)
- Chapter 9- Ray Optics and Optical Instruments : Ray Optics and Optical Instrument – Revision (Part 2)
- Chapter 10- Wave Optics : Introduction
- Chapter 10- Wave Optics : Huygens’ Principle and Wave Front
- Chapter 10- Wave Optics : Reflection on the Basis of Wave Theory
- Chapter 10- Wave Optics : Doppler Effect (Part 1)
- Chapter 10- Wave Optics : Doppler Effect (Part 2)
- Chapter 10- Wave Optics : Interference of Light
- Chapter 10- Wave Optics : Conditions for Constructive and Destructive Interference
- Chapter 10- Wave Optics : Young’s Double Slit Experiment
- Chapter 10- Wave Optics : Expression for Fringe Width
- Chapter 10- Wave Optics : Diffraction of Light
- Chapter 10- Wave Optics : Polarization of Light (Part 1)
- Chapter 10- Wave Optics : Behaviour of Prism, Lens and Mirror towards Plane Wavefront
- Chapter 10- Wave Optics : Revision
- Chapter 10- Wave Optics : Brewster’s Law
- Chapter 10- Wave Optics : Objective Type Practice Questions (Part 1)
- Chapter 10- Wave Optics : Interference of Light : Numerical Questions (Set 2)
- Chapter 10- Wave Optics : Interference of Light : Conceptual Questions
- Chapter 10- Wave Optics : Law of Malus
- Chapter 10- Wave Optics : Interference of Light : Numerical Questions (Set 1)
- Chapter 10- Wave Optics : Wave Optics – Objective Type Practice Questions (Part 3)
- Chapter 10- Wave Optics : Objective Type Practice Questions (Part 4)
- Chapter 10- Wave Optics : Polarisation of Light : Numerical
- Chapter 11- Dual Nature of Radiation and Matter : Introduction
- Chapter 11- Dual Nature of Radiation and Matter : Electron Emission
- Chapter 11- Dual Nature of Radiation and Matter : Experimental Study of Photoelectric Effect
- Chapter 11- Dual Nature of Radiation and Matter : Effect of Intensity of Light on Photo Current
- Chapter 11- Dual Nature of Radiation and Matter : Stopping Potential
- Chapter 11- Dual Nature of Radiation and Matter : Effect of Frequency on Stopping Potential
- Chapter 11- Dual Nature of Radiation and Matter : Photo Electric Effect : Questions (Part 1)
- Chapter 11- Dual Nature of Radiation and Matter : Photoelectric Effect : Important Points
- Chapter 11- Dual Nature of Radiation and Matter : Einstein Photo Equation
- Chapter 11- Dual Nature of Radiation and Matter : Photo Electric Effect : Questions (Part 2)
- Chapter 11- Dual Nature of Radiation and Matter : De-Broglie’s Wavelength : Numericals (Set 1)
- Chapter 11- Dual Nature of Radiation and Matter : De-Broglie Dualistic Hypothesis
- Chapter 11- Dual Nature of Radiation and Matter : De-Broglie’s Wavelength : Numericals (Set 2)
- Chapter 11- Dual Nature of Radiation and Matter : De-Broglie’s Wavelength : Numericals (Set 3)
- Chapter 11- Dual Nature of Radiation and Matter : Conceptual Questions (Set 1)
- Chapter 11- Dual Nature of Radiation and Matter : Conceptual Questions (Set 2)
- Chapter 11- Dual Nature of Radiation and Matter : Conceptual Questions (Set 3)
- Chapter 11- Dual Nature of Radiation and Matter : Conceptual Questions (Set 4)
- Chapter 12- Atoms : Introduction
- Chapter 12- Atoms : Thomson’s Atomic Model
- Chapter 12- Atoms : Rutherford’s Alpha Particle Scattering Experiment
- Chapter 12- Atoms : Distance of Closest Approach
- Chapter 12- Atoms : Rutherford’s Alpha Particle Scattering Experiment : Conclusions
- Chapter 12- Atoms : Rutherfordโs Atom Model
- Chapter 12- Atoms : Rutherfordโs Atom Model : Limitations
- Chapter 12- Atoms : Electron Orbits
- Chapter 12- Atoms : Bohrโs Model of Hydrogen Atom
- Chapter 12- Atoms : Spectral Series of Hydrogen Atom
- Chapter 12- Atoms : Empirical Formula of Spectral Series
- Chapter 12- Atoms : Radii of Bohrโs Stationary Orbit
- Chapter 12- Atoms : Total Energy of Electron in Bohrโs Stationary Orbit
- Chapter 12- Atoms : Energy Level Diagram
- Chapter 12- Atoms : Question on Balmer Series of H-atom
- Chapter 12- Atoms : Question on Bohr Atom Model
- Chapter 12- Atoms : Question on Spectral Lines of H Atom
- Chapter 12- Atoms : De Broglieโs Explanation for Bohrโs Second Postulate of Quantization
- Chapter 12- Atoms : Question on De Broglieโs Explanation of Bohrโs Postulate
- Chapter 12- Atoms : Numerical Questions (Part 1)
- Chapter 12- Atoms : Numerical Questions (Part 2)
- Chapter 12- Atoms : Numerical Questions (Part 3)
- Chapter 12- Atoms : Numerical Questions (Part 4)
- Chapter 12- Atoms : Short Answer Type Questions
- Chapter 12- Atoms : Retain in Memory
- Chapter 13- Nuclei : Introduction
- Chapter 13- Nuclei : Atomic Masses and Composition of Nucleus
- Chapter 13- Nuclei : Discovery of Neutron
- Chapter 13- Nuclei : Size of Nucleus
- Chapter 13- Nuclei : Numerical Questions on Nuclear Density
- Chapter 13- Nuclei : Mass Energy Equivalence Relation
- Chapter 13- Nuclei : Nuclear Binding Energy
- Chapter 13- Nuclei : Isotopes, Isobars and Isotones
- Chapter 13- Nuclei : Numerical Question on Atomic Nucleus
- Chapter 13- Nuclei : Binding Energy Curve
- Chapter 13- Nuclei : Question on Nuclear Binding Energy
- Chapter 13- Nuclei : Radioactivity
- Chapter 13- Nuclei : Laws of Radioactive Disintegration
- Chapter 13- Nuclei : Disintegration Constant
- Chapter 13- Nuclei : Radioactive Decay Law
- Chapter 13- Nuclei : Half Life of Radioactive Element
- Chapter 13- Nuclei : Numerical Questions on ฮฑ, ฮฒ Decay
- Chapter 13- Nuclei : Numerical Questions on Atomic Mass
- Chapter 13- Nuclei : Decay Rate
- Chapter 13- Nuclei : Units of Activity
- Chapter 13- Nuclei : Nuclear Forces
- Chapter 13- Nuclei : Nuclear Fission
- Chapter 13- Nuclei : Conceptual Questions on Nuclei (Part 1)
- Chapter 13- Nuclei : Conceptual Questions on Nuclei (Part 2)
- Chapter 13- Nuclei : Numerical Questions on Radioactivity (Part 1)
- Chapter 13- Nuclei : Numerical Questions on Radioactivity (Part 2)
- Chapter 13- Nuclei : Numerical Questions on Radioactivity (Part 3)
- Chapter 13- Nuclei : One Mark Questions on Radioactivity (Part 1)
- Chapter 13- Nuclei : One Mark Questions on Radioactivity (Part 2)
- Chapter 13- Nuclei : Nuclear Reactor (Part 1)
- Chapter 13- Nuclei : Nuclear Reactor (Part 2)
- Chapter 13- Nuclei : Nuclear Reactor (Part 3)
- Chapter 13- Nuclei : Nuclear Hazards
- Chapter 13- Nuclei : Typical Questions on Radioactivity (Part 1)
- Chapter 13- Nuclei : Typical Questions on Radioactivity (Part 2)
- Chapter 14- Semiconductor Electronics: Materials, Devices and Simple Circuits : Introduction
- Chapter 14- Semiconductor Electronics: Materials, Devices and Simple Circuits : History of Electronics
- Chapter 14- Semiconductor Electronics: Materials, Devices and Simple Circuits : Why Z=14 is So Special
- Chapter 14- Semiconductor Electronics: Materials, Devices and Simple Circuits : Classification of Metals, Conductors & Semiconductors
- Chapter 14- Semiconductor Electronics: Materials, Devices and Simple Circuits : Band Theory of Solids
- Chapter 14- Semiconductor Electronics: Materials, Devices and Simple Circuits : Semiconductors
- Chapter 14- Semiconductor Electronics: Materials, Devices and Simple Circuits : Extrinsic Semiconductors
- Chapter 14- Semiconductor Electronics: Materials, Devices and Simple Circuits : Charge Carriers in Semiconductors
- Chapter 14- Semiconductor Electronics: Materials, Devices and Simple Circuits : Numerical Question on Carrier Concentration
- Chapter 14- Semiconductor Electronics: Materials, Devices and Simple Circuits : Numerical Question on Band Gap
- Chapter 14- Semiconductor Electronics: Materials, Devices and Simple Circuits : Conductivity of Semiconductor
- Chapter 14- Semiconductor Electronics: Materials, Devices and Simple Circuits : P-N Junction
- Chapter 14- Semiconductor Electronics: Materials, Devices and Simple Circuits : Semiconductor Diode
- Chapter 14- Semiconductor Electronics: Materials, Devices and Simple Circuits : V-I Characteristics of P-N Junction Diode
- Chapter 14- Semiconductor Electronics: Materials, Devices and Simple Circuits : Forward Biasing of Semiconductor Diode
- Chapter 14- Semiconductor Electronics: Materials, Devices and Simple Circuits : Resistance of Junction Diode
- Chapter 14- Semiconductor Electronics: Materials, Devices and Simple Circuits : Reverse Biasing of Semiconductor Diode
- Chapter 14- Semiconductor Electronics: Materials, Devices and Simple Circuits : Conductivity of Semiconductor : Numerical (Part 2)
- Chapter 14- Semiconductor Electronics: Materials, Devices and Simple Circuits : Conductivity of Semiconductor : Numerical (Part 1)
- Chapter 14- Semiconductor Electronics: Materials, Devices and Simple Circuits : Conductivity of Semiconductor : Numerical (Part 3)
- Chapter 14- Semiconductor Electronics: Materials, Devices and Simple Circuits : Very Short Answer Questions (Part 1)
- Chapter 14- Semiconductor Electronics: Materials, Devices and Simple Circuits : Very Short Answer Questions (Part 2)
- Chapter 14- Semiconductor Electronics: Materials, Devices and Simple Circuits : Numerical Question on Semiconductor Diode
- Chapter 14- Semiconductor Electronics: Materials, Devices and Simple Circuits : Doping of Semiconductor : Numerical Question
- Chapter 14- Semiconductor Electronics: Materials, Devices and Simple Circuits : Application of Junction Diode
- Chapter 14- Semiconductor Electronics: Materials, Devices and Simple Circuits : Junction Diode as Half Wave Rectifier
- Chapter 14- Semiconductor Electronics: Materials, Devices and Simple Circuits : Junction Diode as Full Wave Rectifier
- Chapter 14- Semiconductor Electronics: Materials, Devices and Simple Circuits : Role of Filters in Rectifiers
- Chapter 14- Semiconductor Electronics: Materials, Devices and Simple Circuits : Differences between Half Wave and Full Wave Rectifier
- Chapter 14- Semiconductor Electronics: Materials, Devices and Simple Circuits : Semiconductor Diode : Numerical
- Chapter 14- Semiconductor Electronics: Materials, Devices and Simple Circuits : Special Purpose P-N Junction Diodes
- Chapter 14- Semiconductor Electronics: Materials, Devices and Simple Circuits : Zener Diode
- Chapter 14- Semiconductor Electronics: Materials, Devices and Simple Circuits : Zener Diode as a Voltage Regulator
- Chapter 14- Semiconductor Electronics: Materials, Devices and Simple Circuits : Photodiode
- Chapter 14- Semiconductor Electronics: Materials, Devices and Simple Circuits : Light Emitting Diode
- Chapter 14- Semiconductor Electronics: Materials, Devices and Simple Circuits : Light Emitting Diode : Applications
- Chapter 14- Semiconductor Electronics: Materials, Devices and Simple Circuits : Solar Cell
- Chapter 14- Semiconductor Electronics: Materials, Devices and Simple Circuits : Solar Cell : Advantages and Disadvantages
- Chapter 14- Semiconductor Electronics: Materials, Devices and Simple Circuits : P-N Junction : Important Points
- Chapter 14- Semiconductor Electronics: Materials, Devices and Simple Circuits : Diode : Practice Questions for Board Exams (Part 1)
- Chapter 14- Semiconductor Electronics: Materials, Devices and Simple Circuits : Diode : Practice Questions for Board Exams (Part 2)
- Chapter 14- Semiconductor Electronics: Materials, Devices and Simple Circuits : Diode : Practice Questions for Board Exams (Part 3)
- Chapter 14- Semiconductor Electronics: Materials, Devices and Simple Circuits : Zener Diode – Practice Questions for Board Exams (Part 1)
- Chapter 14- Semiconductor Electronics: Materials, Devices and Simple Circuits : Zener Diode – Practice Questions for Board Exams (Part 2)
- Chapter 14- Semiconductor Electronics: Materials, Devices and Simple Circuits : Conceptual Questions on Diode for Board Exams
- Chapter 14- Semiconductor Electronics: Materials, Devices and Simple Circuits : Junction Transistor
- Chapter 14- Semiconductor Electronics: Materials, Devices and Simple Circuits : Transistor : Structure and Action (Part 1)
- Chapter 14- Semiconductor Electronics: Materials, Devices and Simple Circuits : Transistor : Structure and Action (Part 2)
- Chapter 14- Semiconductor Electronics: Materials, Devices and Simple Circuits : Transistor Equation
- Chapter 14- Semiconductor Electronics: Materials, Devices and Simple Circuits : Junction Transistor : Modes of Study
- Chapter 14- Semiconductor Electronics: Materials, Devices and Simple Circuits : Transistor as a Switch
- Chapter 14- Semiconductor Electronics: Materials, Devices and Simple Circuits : Concept of an Amplifier
- Chapter 14- Semiconductor Electronics: Materials, Devices and Simple Circuits : Transistor as an Amplifier
- Chapter 14- Semiconductor Electronics: Materials, Devices and Simple Circuits : Current Gain or Amplification Factor
- Chapter 14- Semiconductor Electronics: Materials, Devices and Simple Circuits : Transistor as an Oscillator
- Chapter 14- Semiconductor Electronics: Materials, Devices and Simple Circuits : Transistor as an Oscillator : Working
- Chapter 14- Semiconductor Electronics: Materials, Devices and Simple Circuits : Transistor : Numerical Question (Part 1)
- Chapter 14- Semiconductor Electronics: Materials, Devices and Simple Circuits : Advantages and Disadvantages of Semiconductor Devices
- Chapter 14- Semiconductor Electronics: Materials, Devices and Simple Circuits : Junction Transistor : Important Points
- Chapter 14- Semiconductor Electronics: Materials, Devices and Simple Circuits : Transistor : Numerical Question (Part 2)
- Chapter 14- Semiconductor Electronics: Materials, Devices and Simple Circuits : Digital Electronics and Logic Gates
- Chapter 14- Semiconductor Electronics: Materials, Devices and Simple Circuits : Number Systems
- Chapter 14- Semiconductor Electronics: Materials, Devices and Simple Circuits : Conversion of Decimal to Binary
- Chapter 14- Semiconductor Electronics: Materials, Devices and Simple Circuits : Conversion of Binary to Decimal
- Chapter 14- Semiconductor Electronics: Materials, Devices and Simple Circuits : Logic Gates
- Chapter 14- Semiconductor Electronics: Materials, Devices and Simple Circuits : NOT Gate
- Chapter 14- Semiconductor Electronics: Materials, Devices and Simple Circuits : OR Gate
- Chapter 14- Semiconductor Electronics: Materials, Devices and Simple Circuits : AND Gate
- Chapter 14- Semiconductor Electronics: Materials, Devices and Simple Circuits : NOR Gate
- Chapter 14- Semiconductor Electronics: Materials, Devices and Simple Circuits : NAND Gate
- Chapter 14- Semiconductor Electronics: Materials, Devices and Simple Circuits : EX OR Gate
- Chapter 14- Semiconductor Electronics: Materials, Devices and Simple Circuits : EX NOR Gate
- Chapter 14- Semiconductor Electronics: Materials, Devices and Simple Circuits : Practice Question on Logic Gates
- Chapter 14- Semiconductor Electronics: Materials, Devices and Simple Circuits : Combination of Logic Gates : Practice Question (Part 1)
- Chapter 14- Semiconductor Electronics: Materials, Devices and Simple Circuits : Combination of Logic Gates – Practice Question (Part 3)