Gear up for an incredible learning experience as we bring you a fast-track batch to complete the entire Class 12th Physics syllabus in just one month! Starting from 9th May 2025 to 30th June 2025, this summer vacation batch is specially designed for students aiming to ace their board exams and competitive entrances. With expert guidance, interactive sessions, and daily practice, this batch ensures conceptual clarity and problem-solving expertise. Don’t miss this golden opportunity to stay ahead in your preparation and make the most of your summer!

About the Batch :

Key Highlights of the Batch:

• Complete syllabus coverage in 1 month

• Daily 3-hour interactive sessions

• Comprehensive study material and notes

• Doubt-clearing sessions after every class

• Mock tests and progress tracking

Why Join This Batch:

• Expert teachers with proven results

• Focus on important board and competitive exam topics

• Perfect blend of theory and application-based questions

Batch Details:

• Start Date: 9th May 2025

• End Date: 30th June 2025

• Timings: 3:00PM to 6:00PM

• Mode: Offline

Fee Structure and Registration Process:

• Batch Fee: ₹40,000 (inclusive of study materials and mock tests).

• Registration Fee: ₹500 (non-refundable, required to reserve your seat).

How to Enroll:

1. Click on the "Enroll" button in Marathon 12th Express tab on our website.

2. Fill out the online registration form with your details.

3. Pay the ₹500 registration fee online to secure your seat.

4. Once registered, visit our center or complete the remaining payment online before the batch begins.

Hurry! Limited seats available. Reserve your spot today and get ready to ace Class 12th Maths this summer! 

Syllabus for "PHYSICS Marathon 12th Express" Batch

We cover the entire Class 12th Physics syllabus as per CBSE guidelines, ensuring thorough understanding and preparation for both board exams and competitive entrances

Theory Syllabus (70 Marks)

The theory portion is structured into nine units, each focusing on specific areas of physics:

1. Electrostatics (16 Marks)

   • Chapter 1: Electric Charges and Fields

     • Electric charges; conservation and quantization of charge.

     • Coulomb's law: force between two point charges.

     • Electric field: electric field due to a point charge, electric field lines.

     • Electric dipole: electric field due to a dipole, torque on a dipole in a uniform electric field.

     • Gauss's theorem and its applications.

   • Chapter 2: Electrostatic Potential and Capacitance

     • Electric potential: potential difference, electric potential due to a point charge, a dipole, and a system of charges.

     • Equipotential surfaces.

     • Electrical potential energy of a system of two point charges and of electric dipole in an electrostatic field.

     • Conductors and insulators.

     • Dielectrics and electric polarization.

     • Capacitors and capacitance: combination of capacitors in series and parallel.

     • Energy stored in a capacitor.

2. Current Electricity (17 Marks)

   • Chapter 3: Current Electricity

     • Electric current: flow of electric charges in a metallic conductor, drift velocity, mobility, and their relation with electric current.

     • Ohm's law: electrical resistance, V-I characteristics (linear and non-linear), electrical energy and power, electrical resistivity and conductivity.

     • Temperature dependence of resistance.

     • Internal resistance of a cell, potential difference, and emf of a cell.

     • Combination of cells in series and in parallel.

     • Kirchhoff's laws and their applications.

     • Wheatstone bridge and its applications.

     • Meter bridge: concept and applications.

     • Potentiometer: principle and applications.

3. Magnetic Effects of Current and Magnetism (18 Marks)

   • Chapter 4: Moving Charges and Magnetism

     • Concept of magnetic field: Oersted's experiment.

     • Biot-Savart law and its application to current-carrying circular loop.

     • Ampere's law and its applications.

     • Force on a moving charge in a uniform magnetic and electric fields.

     • Cyclotron: principle and working.

     • Force on a current-carrying conductor in a uniform magnetic field.

     • Force between two parallel current-carrying conductors: definition of ampere.

     • Torque experienced by a current loop in a magnetic field.

     • Moving coil galvanometer: its current sensitivity and conversion to ammeter and voltmeter.

   • Chapter 5: Magnetism and Matter

     • Bar magnet: magnetic field lines, magnetic dipole moment.

     • Earth's magnetic field and magnetic elements.

     • Para-, dia-, and ferromagnetic substances.

     • Magnetic hysteresis.

     • Permanent magnets and electromagnets.

4. Electromagnetic Induction and Alternating Currents (16 Marks)

   • Chapter 6: Electromagnetic Induction

     • Faraday's laws of electromagnetic induction.

     • Lenz's law and conservation of energy.

     • Self and mutual induction.

     • Eddy currents: applications.

   • Chapter 7: Alternating Current

     • Alternating currents: peak and RMS value.

     • Reactance and impedance.

     • LC oscillations.

     • LCR series circuit: resonance.

     • Power in AC circuits: power factor.

     • Transformers: principle and working.

5. Electromagnetic Waves (3 Marks)

   • Chapter 8: Electromagnetic Waves

     • Displacement current.

     • Electromagnetic waves and their characteristics.

     • Electromagnetic spectrum: radio waves, microwaves, infrared, visible, ultraviolet, X-rays, gamma rays.

6. Optics (14 Marks)

   • Chapter 9: Ray Optics and Optical Instruments

     • Reflection and refraction of light.

     • Total internal reflection and its applications.

     • Lens formula and magnification.

     • Microscope and astronomical telescope: their magnifying powers.

   • Chapter 10: Wave Optics

     • Wavefront and Huygens' principle.

     • Interference: Young's double slit experiment.

     • Diffraction due to a single slit.

     • Polarization: plane polarized light, Brewster's law.

7. Dual Nature of Radiation and Matter (4 Marks)

   • Chapter 11: Dual Nature of Radiation and Matter

     • Photoelectric effect: Hertz and Lenard's observations.

     • Einstein's photoelectric equation.

     • Matter waves: de Broglie hypothesis.

8. Atoms and Nuclei (6 Marks)

   • Chapter 12: Atoms

     • Alpha-particle scattering experiment.

     • Bohr model of hydrogen atom.

     • Spectral series of hydrogen atom.

   • Chapter 13: Nuclei

     • Composition and size of nucleus.

     • Mass-energy relation: mass defect.

     • Nuclear fission and fusion.

9. Electronic Devices (6 Marks)

   • Chapter 14: Semiconductor Electronics

     • Energy bands in solids.

     • Intrinsic and extrinsic semiconductors.

     • p-n junction diode: I-V characteristics.

     • Junction transistor: characteristics.

Examination Weightage:

• Theory Marks: 80

• Internal Assessment (Projects/Assignments): 20

This comprehensive syllabus is delivered with a focus on:

• Board exam preparation (NCERT problems and past papers).

• Competitive entrance questions (JEE-level problem-solving).

By the end of the batch, students will have a solid grasp of concepts and techniques required to excel in both academic and competitive assessments.

Don’t miss this opportunity! Secure your seat and master Class 12 Physics this summer!