PHYSICS GRADE 12

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AED 400

Course sections

Section 1

Electrostatic Potential and Capacitance

Electrostatics of Conductors

Capacitor and Capacitence ; Parallel Plate Conductors

Effect of Dielectric; Combination of Capacitors

Energy Stored in a Capacitor

Solved Problems

Section 2

Current Electricity

Limitations of Ohm’s Law ; Resistivity of Various Materials

Temperature and Resistivity ; Combination of Resistors

Electrical Energy; Power; Cells; EMF; internal Resistance

Cells in Series; Kirchoff’s Rule

Wheatstone Bridge; Solved Problems

Section 3

Moving Charges and Magnetism

Biot Savart Law – Direction of Magnetic Field

Magnetic Field in the Axis of Circular Loop

Ampere Circuital Law

Circular Motion, Solenoid and Toroid

Magnetic Field Between 2 Wires Carrying Current

Torque on Current Loop, Magnetic Dipole

Magnetic Moment, Circular Current Loop as a Magnetic Dipole

The Moving Coil Galvanometer, Sensitivity

Section 4

Magnetism and Matter

Magnetism and Matter; Properties of Magnetic Field Lines

Bar Magnet as a Equivalent Solenoid

The Dipole in a Uniform Magnetic Field ; Magnetism and Gauss’s Law

The Earth’s Magnetic Field , Magnetization, Magnetic Intensity – Part 1

Magnetization and Magnetic Intensity; Magnetic Properties of Materials – Part 2

Paramagnetism; Ferromagnetism

Relationship between B

Section 5

Alternating Current

Effective Current and Effective Voltage ;AC Voltage Source Connected across a Resistor

Representation of AC Current and Voltage by Rotating Vectors

AC Voltage Applied to an Inductor

Activity to Understand the AC Voltage is Connected to an Inductor

AC Voltage Source Connected across a Capacitor

AC Voltage Source Connected to a Series LCR

Disadvantages of Phasor Method;Analytical Solution

Sharpness of Resonance

Power in an AC Circuit

LC Oscillations

Analogies between Mechanical & Electrical Quantities

Transformers – Part 1

Transformers – Part 2

Section 6

Electromagnetic Waves

Displacement Current; Electromagnetic Waves

Properties of Electromagnetic Waves; Electromagnetic Spectrum – Part 1

Electromagnetic Spectrum – Part 2

Electromagnetic Spectrum – Part 3

Section 7

Electromagnetic Induction

Electromagnetic Induction; Experiment 6.3; Magnetic Flux

Faraday’s Law of Electromagnetic Induction; Lenz’s Law of Conservation of energy

Motional Electromotive Force

Energy Consideration; Eddy Currents – Part 1

Eddy Currents – Part 2; Magnetic Braking; EM Damping;Induction Furnace; Electric Meter

Mutual Inductance

Self Inductance

Self Inductance Plays Role of Inertia

Section 8

Ray Optics and Optical Instruments

Spherical Mirrors

Mirror Equation; Linear Magnification

Atmospheric Refraction; Total Internal Reflection

Mirage; Diamond Prism; Optical Fibres

Refraction by a Lens

The lens Makers Formula; Power of Lens; Combination of Thin Lenses in Contact

Refraction through a Prism

Rainbow formation; Scattering of Light

Compound Microscope

Section 9

Wave Optics

Huygens Principle; Refraction of Plane Wave

Refraction at a Rarer Medium; Coherent and Incoherent Addition of Waves – Part 1

Constructive and Destructive Overlap

Coherent and Incoherent Addition of Waves – Part 2; Doppler’s Effect

Young’s Double Slit Experiment

Path Difference; Fringe Width

Sustained Interference; Diffraction

Maxima; Secondary Maxima; Comparison between Diffraction and Interference

Resolving Power in Optical Instruments; Diffraction in Resolving Power of Telescope – Part 1

Diffraction in Resolving Power of Telescope – Part 2; Validity of Wave Optics

Polarized Wave and Unpolarized Wave; Polarization

Polarization by Polaroid

Section 10

Dual Nature of Radiation and Matter

Electron Emission; Types of Electron Emission

Photoelectric Effect – Part 1

Photoelectric Effect – Part 2

Experimental Observation of Photoelectric Effect – Part 1

Experimental Observation of Photoelectric Effect – Part 2; Photoelectric Effect and Wave Theory of Light

Einstein’s Photoelectric Equation – Part 1

Einstein’s Photoelectric Equation – Part 2

Photon Picture of Radiation; Wave Nature of Matter – De Broglie’s Hypothesis

Heisenberg’s Uncertainty Principle; Davisson – Germer Experiment

Section 11

Atoms

Rutherford’s Nuclear Model of Atom

Drawbacks of Rutherford’s Model; Atomic Spectra – Part 1

Atomic Spectra – Part 2; Types of Spectrums

Spectral Series – Part 1

Spectral Series – Part 2; Bohr’s Model of Hydrogen Atom; Bohr’s Radius

Energy of Orbits; Drawbacks of Bohr’s Model; De Broglie’s Hypothesis

Section 12

Nuclei

Nuclide; Einstein’s Mass Energy Equivalence

Nuclear Binding Energy per Nucleon

Nuclear Force; Radioactivity

Experiment of Radioactive; Radioactive Nuclides; Radioactive Decay

Law of Radioactive Decay; Generalised Expression for Law of Radioactive Decay

Decay Rate; Mean Life of Radioactive Sample

Alpha Decay; Beta Decay

Gamma Decay; Comparison between Alpha, Beta and Gamma Decay

Nuclear Energy; Types of Nuclear Fission Reactions

Nuclear Reactor – Part 1

Nuclear Reactor – Part 2

Section 13

Semiconductor Electronics; Materials Devices and Simple Circuits - Part 1

Classification of Metals, Conductors and Semiconductors – On the Basis of Conductivity

Classification of Metals, Conductors and Semiconductors – On the Basis of Energy Bands – Part 1

Classification of Metals, Conductors and Semiconductors – On the Basis of Energy Bands – Part 2; Intrinsic Semiconductor

P-n Junction – Part 1

P-n Junction – Part 2

Intrinsic and Extrinsic Semiconductors

n – type Semiconductor; P- type Semiconductor

Energy Band Diagram of n – type Semiconductor & P – type Semiconductor; Semiconductor Diode

Semiconductor Diode – Forward Bias

Semiconductor Diode – Reverse Bias

V-I Characteristics of Diode; Half Wave Rectifier; Full Wave Rectifier

Filters; Zener Diode – Part 1

Zener Diode – Part 2

Zener Diode as a Voltage Regulator

Opto Electronic Devices – Part 1

Opto Electronic Devices – Part 2

Opto Electronic Devices – Part 3; Digital Electronics

Section 14

Semiconductor Electronics; Materials

Section 15

Devices and Simple Circuits - Part 2

Junction Transistor; Pnp Transistor – Part 1

Pnp Transistor – Part 2; Common Emitter Transistor Characteristics – Part 1

Common Emitter Transistor Characteristics – Part 2

Input Resistance; Output Resistance; Current Amplification Factor; Transistor as a Device

Transistor as a Switch – Part 1

Transistor as a Switch – Part 2; Transistor as an Amplifier

Feedback Amplifier and Transistor Oscillator

Section 16

Communication Systems

Elements in the Communication System ; Modulation

Bandwidth of Signals; Bandwidth of Transmission Medium

Data Representation of Signals

Attenuation; Amplification; Range; Bandwidth

Propagation of Waves; Different Layers of Atmosphere – Part 1

Different Layers of Atmosphere – Part 2

Modulation – Part 1

Modulation – Part 2; Amplitude Modulation – Part 1

Amplitude Modulation – Part 2; Production of Amplitude Modulated Wave – Part 1

Production of Amplitude Modulated Wave – Part 2; Transmitting Antenna and Receiving Antenna

Section 17

Electric Charges and Fields

Basic Properties of Charges

Coulomb’s Law

Force Between Multiple Charges

Gauss Law and its Applications

Solved Problems

Solved Problems

Solved Problems

Semiconductor Electronics; Materials Devices and Simple Circuits - Part 1

Energy Band Diagram of n – type Semiconductor & P – type Semiconductor; Semiconductor Diode

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Semiconductor Electronics; Materials Devices and Simple Circuits - Part 1 n – type Semiconductor; P- type Semiconductor

Semiconductor Electronics; Materials Devices and Simple Circuits - Part 1 Semiconductor Diode – Forward Bias