Welcome to the ultimate CBSE Class 12 Physics learning hub! Our channel brings you in-depth, chapter-wise video lectures based on the latest NCERT syllabus, aligned with CBSE Board guidelines. Whether you're preparing for board exams, these Physics videos ensure strong conceptual understanding, step-by-step derivations, formula clarity and quick revision techniques.
🔌 Chapter 1: Electric Charges and Fields
This chapter explains the fundamental concepts of electric charges, their properties, types (positive and negative), and Coulomb's Law. Learn how to derive electric fields using Gauss’s Law, applications for different geometries, and field lines for point charges and systems.
⚡ Chapter 2: Electrostatic Potential and Capacitance-I
Understand the concept of electric potential energy, potential difference, and electric potential due to a point charge and dipole. Explore equipotential surfaces and energy stored in capacitors.
⚡ Chapter 3: Electrostatic Potential and Capacitance-II
Dive deeper into capacitance, capacitors in series and parallel, and dielectric materials. Learn formulas and solve real-world capacitor-based numerical problems.
🔋 Chapter 4: Current Electricity
Master the backbone of electronics – Ohm’s Law, resistivity, series and parallel circuits, Kirchhoff’s Laws, Wheatstone Bridge, and Meter Bridge. Understand practical circuits and numerical problem-solving.
🧲 Chapter 5: Moving Charges and Magnetism-I
Understand how moving charges produce magnetic fields, explore Biot-Savart’s Law, Ampere’s Circuital Law, and motion of a charge in a magnetic field.
🧲 Chapter 6: Moving Charges and Magnetism-II
Explore magnetic field due to different conductor geometries and forces between parallel currents. Grasp the concept of torque on a current loop and magnetic dipole in a magnetic field.
🧭 Chapter 7: Magnetism and Matter
Gain insights into Earth’s magnetism, hysteresis, magnetization, and magnetic materials. Compare diamagnetic, paramagnetic, and ferromagnetic substances.
⚙️ Chapter 8: Electromagnetic Induction
Explore Faraday’s Laws, Lenz’s Law, induced emf, eddy currents, self and mutual induction, and AC generator principle.
🔄 Chapter 9: Alternating Current-I
Understand the nature of alternating currents, peak and RMS values, phasor diagrams, and AC circuit behavior with resistor, inductor, and capacitor.
🔄 Chapter 10: Alternating Current-II
Explore advanced AC circuit analysis involving LCR series circuits, resonance, power in AC circuits, and the power factor. Learn about transformers and their efficiency.
🌈 Chapter 11: Electromagnetic Waves
Dive into Maxwell’s equations, displacement current, and the spectrum of electromagnetic waves. Learn the significance of radio waves to gamma rays in communication and medical fields.
🔍 Chapter 12: Ray Optics and Optical Instruments-I
Understand reflection and refraction through lenses and mirrors, image formation, and sign conventions. Learn about spherical surfaces and the lens-maker’s formula.
🔍 Chapter 13: Ray Optics and Optical Instruments-II
Explore optical instruments like microscopes and telescopes, dispersion, and total internal reflection.
🌊 Chapter 14: Wave Optics-I
Understand the wave nature of light, interference, and Young’s double slit experiment. Analyze coherent sources and path difference calculations.
🌊 Chapter 15: Wave Optics-II
Learn about diffraction and polarization, including experiments and applications. Understand how light behaves in different situations and why it’s a wave.
🔬 Chapter 16: Dual Nature of Radiation and Matter
Understand photoelectric effect, Einstein’s equation, and wave-particle duality. Learn how particles like electrons behave as waves and vice versa.
⚛️ Chapter 17: Atoms
Explore the structure of an atom, Rutherford’s and Bohr’s models, hydrogen spectrum, and energy levels. Understand atomic stability and quantization.
⚛️ Chapter 18: Nuclei
Understand the composition, mass defect, binding energy, and radioactivity. Learn about nuclear fission, fusion, and radioactive decay laws.
💻 Chapter 19: Semiconductor Electronics-I
Explore intrinsic and extrinsic semiconductors, energy band diagrams, and the basics of diodes and p-n junctions. Understand rectification and biasing.
💻 Chapter 20: Semiconductor Electronics-II
Understand advanced concepts like transistors, amplifiers, and logic gates (AND, OR, NOT, NAND, NOR). Learn applications in digital electronics.
Class 12 Physics, CBSE Physics, NCERT Physics, Physics Full Chapter, Physics Concept Clarity, Physics Chapterwise Explanation, JEE Physics, NEET Physics, Physics Board Exam, Physics NCERT Solutions
#Class12Physics #CBSEPhysics #PhysicsExplained #NCERTPhysics #BoardExam2025 #PhysicsRevision #PhysicsLecture #WaveOptics #ElectromagneticInduction
Информация по комментариям в разработке