Class 12 Physics Academic Schedule
2 April 2026 – 15 February 2027
A comprehensive, month-wise Class 12 Physics calendar designed around the official CBSE–NCERT chapter sequence. Core syllabus teaching is paced to conclude within November 2026, after which structured revision classes, cumulative testing, doubt resolution, and full-syllabus consolidation continue till 15 February 2027.
Regular classes: Tuesday & Thursday • 10:00 PM – 11:00 PMWeekly Test: Saturday • 10:00 PMDoubt Session: Sunday • 11:00 AMRevision phase: 1 Dec 2026 – 15 Feb 2027 • Full-syllabus focusMode: Online Live • Open after registration
92
Total lecture hours planned
3
Holiday-rescheduled lectures
43
Live weekly / cumulative tests
44
Live doubt clinics
15
Structured assignment packs
Assumptions & planning logic
- The schedule follows the official CBSE–NCERT Class 12 Physics sequence: Electrostatics → Current Electricity → Magnetism → Electromagnetic Induction → Alternating Current → Electromagnetic Waves → Optics → Modern Physics → Semiconductor Electronics.
- The core board syllabus is intentionally completed inside November 2026 so that December to mid-February can be used for layered revision, cumulative testing, formula retention and correction of weak areas.
- Major holidays intersecting the live timetable were blocked and handled explicitly: Vaisakhi / Ambedkar Jayanti, Independence Day, Dussehra, Diwali, and Republic Day. Lecture holidays were rescheduled onto nearby weekend slots by replacing a test slot or doubt slot.
- Assignments are asynchronous practice packs released at chapter-completion checkpoints. They include derivations, board-pattern numericals, objective questions, and competency-style applications.
- Sunday doubt sessions are designed as error-analysis clinics as much as Q&A meetings, helping students convert test mistakes into chapter-level improvements before the next cycle.
Academic design notes
- Every lecture row includes a dedicated topic details covered / expected outcome column for lesson-level transparency.
- The plan balances derivations, conceptual treatment, circuit interpretation, optics ray-work, and modern-physics numericals rather than front-loading only theory.
- Tests remain diagnostic and compact, but naturally become cumulative when a holiday interrupts the weekly rhythm or when revision modules combine multiple units.
- The revision block is intentionally chapter-bridged: electrostatics, current, magnetism, optics, modern physics and electronics are revised both individually and cumulatively.
Chapter-wise progress tracking
| Chapter / Module | Planned start | Planned completion | Lecture units | Status |
|---|---|---|---|---|
| Electric Charges and Fields | 02 Apr 2026 | 19 Apr 2026 | 5 | Planned |
| Electrostatic Potential and Capacitance | 21 Apr 2026 | 05 May 2026 | 5 | Planned |
| Current Electricity | 07 May 2026 | 26 May 2026 | 6 | Planned |
| Moving Charges and Magnetism | 28 May 2026 | 18 Jun 2026 | 7 | Planned |
| Magnetism and Matter | 23 Jun 2026 | 30 Jun 2026 | 3 | Planned |
| Electromagnetic Induction | 02 Jul 2026 | 14 Jul 2026 | 4 | Planned |
| Alternating Current | 16 Jul 2026 | 30 Jul 2026 | 5 | Planned |
| Electromagnetic Waves | 04 Aug 2026 | 06 Aug 2026 | 2 | Planned |
| Ray Optics and Optical Instruments | 11 Aug 2026 | 10 Sep 2026 | 10 | Planned |
| Wave Optics | 15 Sep 2026 | 29 Sep 2026 | 5 | Planned |
| Dual Nature of Radiation and Matter | 01 Oct 2026 | 13 Oct 2026 | 4 | Planned |
| Atoms | 15 Oct 2026 | 24 Oct 2026 | 3 | Planned |
| Nuclei | 27 Oct 2026 | 05 Nov 2026 | 4 | Planned |
| Semiconductor Electronics: Materials, Devices and Simple Circuits | 10 Nov 2026 | 26 Nov 2026 | 6 | Planned |
| Revision & Exam Readiness | 01 Dec 2026 | 15 Feb 2027 | 23 | Planned |
Month-wise academic calendar
Each scheduled class includes an added “Topic details covered / expected outcome” column for clear lesson planning and revision visibility.
Below, the month cards include live lectures, revision lectures, tests, doubt sessions, assignment milestones and holiday adjustments from April 2026 through 15 February 2027.
April 2026
| Date | Day | Time | Session Type | Chapter / Bucket | Topic / coverage | Topic details covered / expected outcome |
|---|---|---|---|---|---|---|
| 02 Apr 2026 | Thursday | 10:00 PM – 11:00 PM | Lecture | Electric Charges and Fields | Electric charge, conservation, quantisation and Coulomb's law | Builds the basic idea of electric charge, charging methods, conservation and quantisation of charge, and the force law between point charges with sign conventions and unit usage. |
| 04 Apr 2026 | Saturday | 10:00 PM – 10:45 PM | Weekly Test | Assessment | Test 01 (Google Forms / equivalent) — Syllabus: Electric charge, conservation, quantisation and Coulomb's law. | Short diagnostic assessment on Electric charge, conservation, quantisation and Coulomb's law. Focus areas include conceptual accuracy, derivation awareness, circuit or graph interpretation where relevant, and timed numerical execution. |
| 05 Apr 2026 | Sunday | 11:00 AM – 12:00 PM | Doubt Session | Support | Doubt Clinic 01 — Live resolution of Electric charge, conservation, quantisation and Coulomb's law and discussion of common errors. | Live doubt-solving and error-analysis session centred on Electric charge, conservation, quantisation and Coulomb's law. Includes re-solving difficult questions, fixing sign-convention mistakes and clarifying the latest problem trends. |
| 07 Apr 2026 | Tuesday | 10:00 PM – 11:00 PM | Lecture | Electric Charges and Fields | Superposition principle and force due to multiple charges | Applies vector addition to electric forces in multi-charge systems and develops problem-solving strategy for collinear and simple planar charge configurations. |
| 09 Apr 2026 | Thursday | 10:00 PM – 11:00 PM | Lecture | Electric Charges and Fields | Electric field, field due to a point charge and field lines | Defines electric field intensity, direction of field for positive and negative sources, and interprets field-line patterns and density meaningfully. |
| 10 Apr 2026 | Friday | 06:00 PM | Assignment Release | Assignments | Assignment 1 — Electric Charges & Fields worksheet — Coulomb-law numericals, dipole basics and Gauss-law starter practice. Submission deadline: 17 Apr 2026. | Practice pack released for self-study with derivation checks, NCERT-style numericals, competency questions and chapter-linked error-analysis tasks. |
| 11 Apr 2026 | Saturday | 10:00 PM – 10:45 PM | Weekly Test | Assessment | Test 02 (Google Forms / equivalent) — Syllabus: Superposition principle and force due to multiple charges; Electric field, field due to a point charge and field lines. | Short diagnostic assessment on Superposition principle and force due to multiple charges; Electric field, field due to a point charge and field lines. Focus areas include conceptual accuracy, derivation awareness, circuit or graph interpretation where relevant, and timed numerical execution. |
| 12 Apr 2026 | Sunday | 11:00 AM – 12:00 PM | Doubt Session | Support | Doubt Clinic 02 — Live resolution of Superposition principle and force due to multiple charges; Electric field, field due to a point charge and field lines and discussion of common errors. | Live doubt-solving and error-analysis session centred on Superposition principle and force due to multiple charges; Electric field, field due to a point charge and field lines. Includes re-solving difficult questions, fixing sign-convention mistakes and clarifying the latest problem trends. |
| 14 Apr 2026 | Tuesday | — | Holiday | Holiday Calendar | Vaisakhi / Ambedkar Jayanti — No live lecture on this holiday; lecture shifted to 19 Apr 2026 (Sunday). | No live academic session is planned on this date. The disrupted lecture, test, or doubt-support slot is compensated elsewhere in the calendar to preserve continuity. |
| 16 Apr 2026 | Thursday | 10:00 PM – 11:00 PM | Lecture | Electric Charges and Fields | Electric dipole, dipole field and torque in uniform electric field | Explains dipole moment, axial and equatorial field ideas, and the turning effect of a uniform electric field on an electric dipole. |
| 17 Apr 2026 | Friday | 09:00 PM | Assignment Deadline | Assignments | Deadline for Assignment 1 — Electric Charges & Fields worksheet — Coulomb-law numericals, dipole basics and Gauss-law starter practice. | Submission checkpoint for the related worksheet. Students should finish the pack, mark unresolved doubts and be ready for review in the next support cycle. |
| 18 Apr 2026 | Saturday | 10:00 PM – 10:45 PM | Weekly Test | Assessment | Test 03 (Google Forms / equivalent) — Syllabus: Electric dipole, dipole field and torque in uniform electric field. | Short diagnostic assessment on Electric dipole, dipole field and torque in uniform electric field. Focus areas include conceptual accuracy, derivation awareness, circuit or graph interpretation where relevant, and timed numerical execution. |
| 19 Apr 2026 | Sunday | 10:00 PM – 11:00 PM | Lecture (Rescheduled) | Electric Charges and Fields | Electric flux and Gauss's law applications to line, sheet and sphere | Introduces electric flux, states Gauss's law, and applies symmetry arguments to standard charge distributions such as spherical shells, infinite lines and sheets. |
| 21 Apr 2026 | Tuesday | 10:00 PM – 11:00 PM | Lecture | Electrostatic Potential and Capacitance | Electrostatic potential, potential difference and potential due to point charge | Connects work done with electric potential, develops scalar treatment of potential, and evaluates potential for isolated point charges and simple systems. |
| 23 Apr 2026 | Thursday | 10:00 PM – 11:00 PM | Lecture | Electrostatic Potential and Capacitance | Equipotential surfaces and relation between electric field and potential | Interprets equipotential surfaces, explains why electric field is normal to them, and links potential gradient to electric field strength. |
| 24 Apr 2026 | Friday | 06:00 PM | Assignment Release | Assignments | Assignment 2 — Electrostatic Potential & Capacitance — potential-energy questions, capacitor combinations and dielectric applications. Submission deadline: 01 May 2026. | Practice pack released for self-study with derivation checks, NCERT-style numericals, competency questions and chapter-linked error-analysis tasks. |
| 25 Apr 2026 | Saturday | 10:00 PM – 10:45 PM | Weekly Test | Assessment | Test 04 (Google Forms / equivalent) — Syllabus: Electric flux and Gauss's law applications to line, sheet and sphere; Electrostatic potential, potential difference and potential due to point charge; Equipotential surfaces and relation between electric field and potential. | Short diagnostic assessment on Electric flux and Gauss's law applications to line, sheet and sphere; Electrostatic potential, potential difference and potential due to point charge; Equipotential surfaces and relation between electric field and potential. Focus areas include conceptual accuracy, derivation awareness, circuit or graph interpretation where relevant, and timed numerical execution. |
| 26 Apr 2026 | Sunday | 11:00 AM – 12:00 PM | Doubt Session | Support | Doubt Clinic 03 — Live resolution of Electric flux and Gauss's law applications to line, sheet and sphere; Electrostatic potential, potential difference and potential due to point charge; Equipotential surfaces and relation between electric field and potential and discussion of common errors. | Live doubt-solving and error-analysis session centred on Electric flux and Gauss's law applications to line, sheet and sphere; Electrostatic potential, potential difference and potential due to point charge; Equipotential surfaces and relation between electric field and potential. Includes re-solving difficult questions, fixing sign-convention mistakes and clarifying the latest problem trends. |
| 28 Apr 2026 | Tuesday | 10:00 PM – 11:00 PM | Lecture | Electrostatic Potential and Capacitance | Potential energy of a system of charges and motion in electrostatic field | Builds electrostatic potential energy, energy of charge systems, and the effect of electric fields on charged particles from the work-energy viewpoint. |
| 30 Apr 2026 | Thursday | 10:00 PM – 11:00 PM | Lecture | Electrostatic Potential and Capacitance | Capacitance, parallel-plate capacitor and effect of dielectric | Defines capacitance, derives the parallel-plate capacitor relation, and explains how geometry and dielectric medium alter capacitance. |
May 2026
| Date | Day | Time | Session Type | Chapter / Bucket | Topic / coverage | Topic details covered / expected outcome |
|---|---|---|---|---|---|---|
| 01 May 2026 | Friday | 09:00 PM | Assignment Deadline | Assignments | Deadline for Assignment 2 — Electrostatic Potential & Capacitance — potential-energy questions, capacitor combinations and dielectric applications. | Submission checkpoint for the related worksheet. Students should finish the pack, mark unresolved doubts and be ready for review in the next support cycle. |
| 02 May 2026 | Saturday | 10:00 PM – 10:45 PM | Weekly Test | Assessment | Test 05 (Google Forms / equivalent) — Syllabus: Potential energy of a system of charges and motion in electrostatic field; Capacitance, parallel-plate capacitor and effect of dielectric. | Short diagnostic assessment on Potential energy of a system of charges and motion in electrostatic field; Capacitance, parallel-plate capacitor and effect of dielectric. Focus areas include conceptual accuracy, derivation awareness, circuit or graph interpretation where relevant, and timed numerical execution. |
| 03 May 2026 | Sunday | 11:00 AM – 12:00 PM | Doubt Session | Support | Doubt Clinic 04 — Live resolution of Potential energy of a system of charges and motion in electrostatic field; Capacitance, parallel-plate capacitor and effect of dielectric and discussion of common errors. | Live doubt-solving and error-analysis session centred on Potential energy of a system of charges and motion in electrostatic field; Capacitance, parallel-plate capacitor and effect of dielectric. Includes re-solving difficult questions, fixing sign-convention mistakes and clarifying the latest problem trends. |
| 05 May 2026 | Tuesday | 10:00 PM – 11:00 PM | Lecture | Electrostatic Potential and Capacitance | Series-parallel combinations, energy stored in capacitor and numericals | Solves capacitor-combination problems, evaluates stored energy, and practices CBSE-style mixed numericals involving charging and dielectric insertion. |
| 07 May 2026 | Thursday | 10:00 PM – 11:00 PM | Lecture | Current Electricity | Electric current, drift velocity, mobility and microscopic view of conduction | Explains current as rate of flow of charge, develops drift velocity, and connects microscopic electron motion to macroscopic current. |
| 09 May 2026 | Saturday | 10:00 PM – 10:45 PM | Weekly Test | Assessment | Test 06 (Google Forms / equivalent) — Syllabus: Series-parallel combinations, energy stored in capacitor and numericals; Electric current, drift velocity, mobility and microscopic view of conduction. | Short diagnostic assessment on Series-parallel combinations, energy stored in capacitor and numericals; Electric current, drift velocity, mobility and microscopic view of conduction. Focus areas include conceptual accuracy, derivation awareness, circuit or graph interpretation where relevant, and timed numerical execution. |
| 10 May 2026 | Sunday | 11:00 AM – 12:00 PM | Doubt Session | Support | Doubt Clinic 05 — Live resolution of Series-parallel combinations, energy stored in capacitor and numericals; Electric current, drift velocity, mobility and microscopic view of conduction and discussion of common errors. | Live doubt-solving and error-analysis session centred on Series-parallel combinations, energy stored in capacitor and numericals; Electric current, drift velocity, mobility and microscopic view of conduction. Includes re-solving difficult questions, fixing sign-convention mistakes and clarifying the latest problem trends. |
| 12 May 2026 | Tuesday | 10:00 PM – 11:00 PM | Lecture | Current Electricity | Ohm's law, resistance, resistivity and temperature dependence | Differentiates resistance and resistivity, applies Ohm's law carefully, and studies the effect of dimensions and temperature on resistance. |
| 14 May 2026 | Thursday | 10:00 PM – 11:00 PM | Lecture | Current Electricity | Cells, emf, internal resistance and terminal potential difference | Defines emf and terminal voltage, studies internal resistance, and solves circuit situations involving cells under charging and discharging conditions. |
| 15 May 2026 | Friday | 06:00 PM | Assignment Release | Assignments | Assignment 3 — Current Electricity — resistor networks, Kirchhoff-law practice and potentiometer questions. Submission deadline: 22 May 2026. | Practice pack released for self-study with derivation checks, NCERT-style numericals, competency questions and chapter-linked error-analysis tasks. |
| 16 May 2026 | Saturday | 10:00 PM – 10:45 PM | Weekly Test | Assessment | Test 07 (Google Forms / equivalent) — Syllabus: Ohm's law, resistance, resistivity and temperature dependence; Cells, emf, internal resistance and terminal potential difference. | Short diagnostic assessment on Ohm's law, resistance, resistivity and temperature dependence; Cells, emf, internal resistance and terminal potential difference. Focus areas include conceptual accuracy, derivation awareness, circuit or graph interpretation where relevant, and timed numerical execution. |
| 17 May 2026 | Sunday | 11:00 AM – 12:00 PM | Doubt Session | Support | Doubt Clinic 06 — Live resolution of Ohm's law, resistance, resistivity and temperature dependence; Cells, emf, internal resistance and terminal potential difference and discussion of common errors. | Live doubt-solving and error-analysis session centred on Ohm's law, resistance, resistivity and temperature dependence; Cells, emf, internal resistance and terminal potential difference. Includes re-solving difficult questions, fixing sign-convention mistakes and clarifying the latest problem trends. |
| 19 May 2026 | Tuesday | 10:00 PM – 11:00 PM | Lecture | Current Electricity | Combination of resistors, series-parallel reduction and circuit simplification | Reduces resistor networks, calculates equivalent resistance, and develops fast methods for current and potential distribution in simple circuits. |
| 21 May 2026 | Thursday | 10:00 PM – 11:00 PM | Lecture | Current Electricity | Kirchhoff's laws and multi-loop circuit analysis | Uses junction and loop rules to analyse multibranch circuits and trains students in sign convention and systematic equation setup. |
| 22 May 2026 | Friday | 09:00 PM | Assignment Deadline | Assignments | Deadline for Assignment 3 — Current Electricity — resistor networks, Kirchhoff-law practice and potentiometer questions. | Submission checkpoint for the related worksheet. Students should finish the pack, mark unresolved doubts and be ready for review in the next support cycle. |
| 23 May 2026 | Saturday | 10:00 PM – 10:45 PM | Weekly Test | Assessment | Test 08 (Google Forms / equivalent) — Syllabus: Combination of resistors, series-parallel reduction and circuit simplification; Kirchhoff's laws and multi-loop circuit analysis. | Short diagnostic assessment on Combination of resistors, series-parallel reduction and circuit simplification; Kirchhoff's laws and multi-loop circuit analysis. Focus areas include conceptual accuracy, derivation awareness, circuit or graph interpretation where relevant, and timed numerical execution. |
| 24 May 2026 | Sunday | 11:00 AM – 12:00 PM | Doubt Session | Support | Doubt Clinic 07 — Live resolution of Combination of resistors, series-parallel reduction and circuit simplification; Kirchhoff's laws and multi-loop circuit analysis and discussion of common errors. | Live doubt-solving and error-analysis session centred on Combination of resistors, series-parallel reduction and circuit simplification; Kirchhoff's laws and multi-loop circuit analysis. Includes re-solving difficult questions, fixing sign-convention mistakes and clarifying the latest problem trends. |
| 26 May 2026 | Tuesday | 10:00 PM – 11:00 PM | Lecture | Current Electricity | Wheatstone bridge, meter bridge, potentiometer and chapter drill | Applies balancing conditions in bridge circuits, studies meter bridge and potentiometer uses, and consolidates the chapter through representative numericals. |
| 28 May 2026 | Thursday | 10:00 PM – 11:00 PM | Lecture | Moving Charges and Magnetism | Magnetic force on moving charge, Lorentz force and motion in uniform field | Introduces magnetic force on charges, right-hand-rule interpretation, and circular or helical motion of particles in uniform magnetic fields. |
| 30 May 2026 | Saturday | 10:00 PM – 10:45 PM | Weekly Test | Assessment | Test 09 (Google Forms / equivalent) — Syllabus: Wheatstone bridge, meter bridge, potentiometer and chapter drill; Magnetic force on moving charge, Lorentz force and motion in uniform field. | Short diagnostic assessment on Wheatstone bridge, meter bridge, potentiometer and chapter drill; Magnetic force on moving charge, Lorentz force and motion in uniform field. Focus areas include conceptual accuracy, derivation awareness, circuit or graph interpretation where relevant, and timed numerical execution. |
| 31 May 2026 | Sunday | 11:00 AM – 12:00 PM | Doubt Session | Support | Doubt Clinic 08 — Live resolution of Wheatstone bridge, meter bridge, potentiometer and chapter drill; Magnetic force on moving charge, Lorentz force and motion in uniform field and discussion of common errors. | Live doubt-solving and error-analysis session centred on Wheatstone bridge, meter bridge, potentiometer and chapter drill; Magnetic force on moving charge, Lorentz force and motion in uniform field. Includes re-solving difficult questions, fixing sign-convention mistakes and clarifying the latest problem trends. |
June 2026
| Date | Day | Time | Session Type | Chapter / Bucket | Topic / coverage | Topic details covered / expected outcome |
|---|---|---|---|---|---|---|
| 02 Jun 2026 | Tuesday | 10:00 PM – 11:00 PM | Lecture | Moving Charges and Magnetism | Force on current-carrying conductor and force between parallel currents | Develops magnetic force on a current element, compares direction rules, and derives interaction between long parallel current-carrying conductors. |
| 04 Jun 2026 | Thursday | 10:00 PM – 11:00 PM | Lecture | Moving Charges and Magnetism | Biot-Savart law and magnetic field on axis of circular loop | Uses the Biot-Savart law to calculate magnetic field strength for simple current geometries, especially the circular loop. |
| 05 Jun 2026 | Friday | 06:00 PM | Assignment Release | Assignments | Assignment 4 — Moving Charges & Magnetism — force on charges, loop/solenoid field and galvanometer conversions. Submission deadline: 12 Jun 2026. | Practice pack released for self-study with derivation checks, NCERT-style numericals, competency questions and chapter-linked error-analysis tasks. |
| 06 Jun 2026 | Saturday | 10:00 PM – 10:45 PM | Weekly Test | Assessment | Test 10 (Google Forms / equivalent) — Syllabus: Force on current-carrying conductor and force between parallel currents; Biot-Savart law and magnetic field on axis of circular loop. | Short diagnostic assessment on Force on current-carrying conductor and force between parallel currents; Biot-Savart law and magnetic field on axis of circular loop. Focus areas include conceptual accuracy, derivation awareness, circuit or graph interpretation where relevant, and timed numerical execution. |
| 07 Jun 2026 | Sunday | 11:00 AM – 12:00 PM | Doubt Session | Support | Doubt Clinic 09 — Live resolution of Force on current-carrying conductor and force between parallel currents; Biot-Savart law and magnetic field on axis of circular loop and discussion of common errors. | Live doubt-solving and error-analysis session centred on Force on current-carrying conductor and force between parallel currents; Biot-Savart law and magnetic field on axis of circular loop. Includes re-solving difficult questions, fixing sign-convention mistakes and clarifying the latest problem trends. |
| 09 Jun 2026 | Tuesday | 10:00 PM – 11:00 PM | Lecture | Moving Charges and Magnetism | Ampere's circuital law and field due to solenoid and toroid | States Ampere's law, identifies symmetry-rich cases, and calculates magnetic field inside a long solenoid and toroidal coil. |
| 11 Jun 2026 | Thursday | 10:00 PM – 11:00 PM | Lecture | Moving Charges and Magnetism | Torque on current loop and magnetic dipole moment | Relates current loop behaviour to magnetic dipole moment, studies torque in a uniform field, and connects electrical and magnetic dipoles. |
| 12 Jun 2026 | Friday | 09:00 PM | Assignment Deadline | Assignments | Deadline for Assignment 4 — Moving Charges & Magnetism — force on charges, loop/solenoid field and galvanometer conversions. | Submission checkpoint for the related worksheet. Students should finish the pack, mark unresolved doubts and be ready for review in the next support cycle. |
| 13 Jun 2026 | Saturday | 10:00 PM – 10:45 PM | Weekly Test | Assessment | Test 11 (Google Forms / equivalent) — Syllabus: Ampere's circuital law and field due to solenoid and toroid; Torque on current loop and magnetic dipole moment. | Short diagnostic assessment on Ampere's circuital law and field due to solenoid and toroid; Torque on current loop and magnetic dipole moment. Focus areas include conceptual accuracy, derivation awareness, circuit or graph interpretation where relevant, and timed numerical execution. |
| 14 Jun 2026 | Sunday | 11:00 AM – 12:00 PM | Doubt Session | Support | Doubt Clinic 10 — Live resolution of Ampere's circuital law and field due to solenoid and toroid; Torque on current loop and magnetic dipole moment and discussion of common errors. | Live doubt-solving and error-analysis session centred on Ampere's circuital law and field due to solenoid and toroid; Torque on current loop and magnetic dipole moment. Includes re-solving difficult questions, fixing sign-convention mistakes and clarifying the latest problem trends. |
| 16 Jun 2026 | Tuesday | 10:00 PM – 11:00 PM | Lecture | Moving Charges and Magnetism | Cyclotron, velocity selector and charged-particle applications | Studies the working principle of cyclotron and velocity selector and solves application-oriented particle-motion problems in crossed fields. |
| 18 Jun 2026 | Thursday | 10:00 PM – 11:00 PM | Lecture | Moving Charges and Magnetism | Moving-coil galvanometer, ammeter-voltmeter conversion and numericals | Explains galvanometer principle, current sensitivity, and the modification of galvanometer into ammeter and voltmeter with practical calculations. |
| 19 Jun 2026 | Friday | 06:00 PM | Assignment Release | Assignments | Assignment 5 — Magnetism & Matter + EMI — magnetic materials, earth magnetism and induction numericals. Submission deadline: 26 Jun 2026. | Practice pack released for self-study with derivation checks, NCERT-style numericals, competency questions and chapter-linked error-analysis tasks. |
| 20 Jun 2026 | Saturday | 10:00 PM – 10:45 PM | Weekly Test | Assessment | Test 12 (Google Forms / equivalent) — Syllabus: Cyclotron, velocity selector and charged-particle applications; Moving-coil galvanometer, ammeter-voltmeter conversion and numericals. | Short diagnostic assessment on Cyclotron, velocity selector and charged-particle applications; Moving-coil galvanometer, ammeter-voltmeter conversion and numericals. Focus areas include conceptual accuracy, derivation awareness, circuit or graph interpretation where relevant, and timed numerical execution. |
| 21 Jun 2026 | Sunday | 11:00 AM – 12:00 PM | Doubt Session | Support | Doubt Clinic 11 — Live resolution of Cyclotron, velocity selector and charged-particle applications; Moving-coil galvanometer, ammeter-voltmeter conversion and numericals and discussion of common errors. | Live doubt-solving and error-analysis session centred on Cyclotron, velocity selector and charged-particle applications; Moving-coil galvanometer, ammeter-voltmeter conversion and numericals. Includes re-solving difficult questions, fixing sign-convention mistakes and clarifying the latest problem trends. |
| 23 Jun 2026 | Tuesday | 10:00 PM – 11:00 PM | Lecture | Magnetism and Matter | Bar magnet, earth's magnetism and magnetic elements | Introduces magnetic dipole view of bar magnets, earth's magnetic field, declination/dip/inclination, and the meaning of magnetic elements. |
| 25 Jun 2026 | Thursday | 10:00 PM – 11:00 PM | Lecture | Magnetism and Matter | Magnetisation, susceptibility, permeability and materials | Compares diamagnetic, paramagnetic and ferromagnetic substances using magnetisation response, susceptibility and permeability concepts. |
| 26 Jun 2026 | Friday | 09:00 PM | Assignment Deadline | Assignments | Deadline for Assignment 5 — Magnetism & Matter + EMI — magnetic materials, earth magnetism and induction numericals. | Submission checkpoint for the related worksheet. Students should finish the pack, mark unresolved doubts and be ready for review in the next support cycle. |
| 27 Jun 2026 | Saturday | 10:00 PM – 10:45 PM | Weekly Test | Assessment | Test 13 (Google Forms / equivalent) — Syllabus: Bar magnet, earth's magnetism and magnetic elements; Magnetisation, susceptibility, permeability and materials. | Short diagnostic assessment on Bar magnet, earth's magnetism and magnetic elements; Magnetisation, susceptibility, permeability and materials. Focus areas include conceptual accuracy, derivation awareness, circuit or graph interpretation where relevant, and timed numerical execution. |
| 28 Jun 2026 | Sunday | 11:00 AM – 12:00 PM | Doubt Session | Support | Doubt Clinic 12 — Live resolution of Bar magnet, earth's magnetism and magnetic elements; Magnetisation, susceptibility, permeability and materials and discussion of common errors. | Live doubt-solving and error-analysis session centred on Bar magnet, earth's magnetism and magnetic elements; Magnetisation, susceptibility, permeability and materials. Includes re-solving difficult questions, fixing sign-convention mistakes and clarifying the latest problem trends. |
| 30 Jun 2026 | Tuesday | 10:00 PM – 11:00 PM | Lecture | Magnetism and Matter | Hysteresis, permanent magnets, electromagnets and chapter recap | Explains hysteresis loop, retentivity and coercivity, and differentiates material choice for permanent magnets and electromagnets. |
July 2026
| Date | Day | Time | Session Type | Chapter / Bucket | Topic / coverage | Topic details covered / expected outcome |
|---|---|---|---|---|---|---|
| 02 Jul 2026 | Thursday | 10:00 PM – 11:00 PM | Lecture | Electromagnetic Induction | Magnetic flux, Faraday's laws and Lenz's law | Defines magnetic flux, states Faraday's laws of induction, and uses Lenz's law to determine direction of induced current. |
| 04 Jul 2026 | Saturday | 10:00 PM – 10:45 PM | Weekly Test | Assessment | Test 14 (Google Forms / equivalent) — Syllabus: Hysteresis, permanent magnets, electromagnets and chapter recap; Magnetic flux, Faraday's laws and Lenz's law. | Short diagnostic assessment on Hysteresis, permanent magnets, electromagnets and chapter recap; Magnetic flux, Faraday's laws and Lenz's law. Focus areas include conceptual accuracy, derivation awareness, circuit or graph interpretation where relevant, and timed numerical execution. |
| 05 Jul 2026 | Sunday | 11:00 AM – 12:00 PM | Doubt Session | Support | Doubt Clinic 13 — Live resolution of Hysteresis, permanent magnets, electromagnets and chapter recap; Magnetic flux, Faraday's laws and Lenz's law and discussion of common errors. | Live doubt-solving and error-analysis session centred on Hysteresis, permanent magnets, electromagnets and chapter recap; Magnetic flux, Faraday's laws and Lenz's law. Includes re-solving difficult questions, fixing sign-convention mistakes and clarifying the latest problem trends. |
| 07 Jul 2026 | Tuesday | 10:00 PM – 11:00 PM | Lecture | Electromagnetic Induction | Motional emf, flux change methods and induced electric field | Studies induced emf by conductor motion and changing flux, and links electromagnetic induction to non-electrostatic induced electric fields. |
| 09 Jul 2026 | Thursday | 10:00 PM – 11:00 PM | Lecture | Electromagnetic Induction | Self inductance, mutual inductance and energy stored in inductor | Develops inductance concepts, induced emf relations, and the expression for magnetic energy stored in an inductor. |
| 10 Jul 2026 | Friday | 06:00 PM | Assignment Release | Assignments | Assignment 6 — Alternating Current — LCR circuits, resonance, power factor and transformer-based practice. Submission deadline: 17 Jul 2026. | Practice pack released for self-study with derivation checks, NCERT-style numericals, competency questions and chapter-linked error-analysis tasks. |
| 11 Jul 2026 | Saturday | 10:00 PM – 10:45 PM | Weekly Test | Assessment | Test 15 (Google Forms / equivalent) — Syllabus: Motional emf, flux change methods and induced electric field; Self inductance, mutual inductance and energy stored in inductor. | Short diagnostic assessment on Motional emf, flux change methods and induced electric field; Self inductance, mutual inductance and energy stored in inductor. Focus areas include conceptual accuracy, derivation awareness, circuit or graph interpretation where relevant, and timed numerical execution. |
| 12 Jul 2026 | Sunday | 11:00 AM – 12:00 PM | Doubt Session | Support | Doubt Clinic 14 — Live resolution of Motional emf, flux change methods and induced electric field; Self inductance, mutual inductance and energy stored in inductor and discussion of common errors. | Live doubt-solving and error-analysis session centred on Motional emf, flux change methods and induced electric field; Self inductance, mutual inductance and energy stored in inductor. Includes re-solving difficult questions, fixing sign-convention mistakes and clarifying the latest problem trends. |
| 14 Jul 2026 | Tuesday | 10:00 PM – 11:00 PM | Lecture | Electromagnetic Induction | Eddy currents, practical devices and EMI numericals | Applies induction ideas to eddy currents, induction coil and practical devices, then strengthens understanding through chapter numericals. |
| 16 Jul 2026 | Thursday | 10:00 PM – 11:00 PM | Lecture | Alternating Current | Alternating current basics, sinusoidal quantities and rms values | Introduces sinusoidal voltage/current, time period, frequency and rms values, and interprets their practical significance in AC circuits. |
| 17 Jul 2026 | Friday | 09:00 PM | Assignment Deadline | Assignments | Deadline for Assignment 6 — Alternating Current — LCR circuits, resonance, power factor and transformer-based practice. | Submission checkpoint for the related worksheet. Students should finish the pack, mark unresolved doubts and be ready for review in the next support cycle. |
| 18 Jul 2026 | Saturday | 10:00 PM – 10:45 PM | Weekly Test | Assessment | Test 16 (Google Forms / equivalent) — Syllabus: Eddy currents, practical devices and EMI numericals; Alternating current basics, sinusoidal quantities and rms values. | Short diagnostic assessment on Eddy currents, practical devices and EMI numericals; Alternating current basics, sinusoidal quantities and rms values. Focus areas include conceptual accuracy, derivation awareness, circuit or graph interpretation where relevant, and timed numerical execution. |
| 19 Jul 2026 | Sunday | 11:00 AM – 12:00 PM | Doubt Session | Support | Doubt Clinic 15 — Live resolution of Eddy currents, practical devices and EMI numericals; Alternating current basics, sinusoidal quantities and rms values and discussion of common errors. | Live doubt-solving and error-analysis session centred on Eddy currents, practical devices and EMI numericals; Alternating current basics, sinusoidal quantities and rms values. Includes re-solving difficult questions, fixing sign-convention mistakes and clarifying the latest problem trends. |
| 21 Jul 2026 | Tuesday | 10:00 PM – 11:00 PM | Lecture | Alternating Current | AC through resistor, inductor and capacitor with phasor ideas | Builds phase relations and reactance for pure R, L and C circuits and reads phasor representation meaningfully. |
| 23 Jul 2026 | Thursday | 10:00 PM – 11:00 PM | Lecture | Alternating Current | Series LCR circuit, impedance, resonance and frequency response | Analyses the series LCR circuit, derives impedance relations, and explains resonance, selectivity and peak current behaviour. |
| 24 Jul 2026 | Friday | 06:00 PM | Assignment Release | Assignments | Assignment 7 — Electromagnetic Waves + Ray Optics I — spectrum, mirrors, refraction and lens formula drill. Submission deadline: 31 Jul 2026. | Practice pack released for self-study with derivation checks, NCERT-style numericals, competency questions and chapter-linked error-analysis tasks. |
| 25 Jul 2026 | Saturday | 10:00 PM – 10:45 PM | Weekly Test | Assessment | Test 17 (Google Forms / equivalent) — Syllabus: AC through resistor, inductor and capacitor with phasor ideas; Series LCR circuit, impedance, resonance and frequency response. | Short diagnostic assessment on AC through resistor, inductor and capacitor with phasor ideas; Series LCR circuit, impedance, resonance and frequency response. Focus areas include conceptual accuracy, derivation awareness, circuit or graph interpretation where relevant, and timed numerical execution. |
| 26 Jul 2026 | Sunday | 11:00 AM – 12:00 PM | Doubt Session | Support | Doubt Clinic 16 — Live resolution of AC through resistor, inductor and capacitor with phasor ideas; Series LCR circuit, impedance, resonance and frequency response and discussion of common errors. | Live doubt-solving and error-analysis session centred on AC through resistor, inductor and capacitor with phasor ideas; Series LCR circuit, impedance, resonance and frequency response. Includes re-solving difficult questions, fixing sign-convention mistakes and clarifying the latest problem trends. |
| 28 Jul 2026 | Tuesday | 10:00 PM – 11:00 PM | Lecture | Alternating Current | Power in AC circuits, power factor and wattless current | Defines average power and power factor, explains energy loss concepts, and distinguishes useful power transfer from wattless current situations. |
| 30 Jul 2026 | Thursday | 10:00 PM – 11:00 PM | Lecture | Alternating Current | Transformer, energy transmission and AC mixed numericals | Studies transformer construction and working, transmission advantages of high voltage, and solves mixed AC circuit numericals. |
| 31 Jul 2026 | Friday | 09:00 PM | Assignment Deadline | Assignments | Deadline for Assignment 7 — Electromagnetic Waves + Ray Optics I — spectrum, mirrors, refraction and lens formula drill. | Submission checkpoint for the related worksheet. Students should finish the pack, mark unresolved doubts and be ready for review in the next support cycle. |
August 2026
| Date | Day | Time | Session Type | Chapter / Bucket | Topic / coverage | Topic details covered / expected outcome |
|---|---|---|---|---|---|---|
| 01 Aug 2026 | Saturday | 10:00 PM – 10:45 PM | Weekly Test | Assessment | Test 18 (Google Forms / equivalent) — Syllabus: Power in AC circuits, power factor and wattless current; Transformer, energy transmission and AC mixed numericals. | Short diagnostic assessment on Power in AC circuits, power factor and wattless current; Transformer, energy transmission and AC mixed numericals. Focus areas include conceptual accuracy, derivation awareness, circuit or graph interpretation where relevant, and timed numerical execution. |
| 02 Aug 2026 | Sunday | 11:00 AM – 12:00 PM | Doubt Session | Support | Doubt Clinic 17 — Live resolution of Power in AC circuits, power factor and wattless current; Transformer, energy transmission and AC mixed numericals and discussion of common errors. | Live doubt-solving and error-analysis session centred on Power in AC circuits, power factor and wattless current; Transformer, energy transmission and AC mixed numericals. Includes re-solving difficult questions, fixing sign-convention mistakes and clarifying the latest problem trends. |
| 04 Aug 2026 | Tuesday | 10:00 PM – 11:00 PM | Lecture | Electromagnetic Waves | Displacement current and generation of electromagnetic waves | Explains Maxwellian bridge idea through displacement current and shows how changing electric and magnetic fields sustain electromagnetic waves. |
| 06 Aug 2026 | Thursday | 10:00 PM – 11:00 PM | Lecture | Electromagnetic Waves | Electromagnetic spectrum, properties and everyday applications | Surveys the electromagnetic spectrum, highlights wavelength-frequency ranges, and discusses major uses and safety-related observations. |
| 08 Aug 2026 | Saturday | 10:00 PM – 10:45 PM | Weekly Test | Assessment | Test 19 (Google Forms / equivalent) — Syllabus: Displacement current and generation of electromagnetic waves; Electromagnetic spectrum, properties and everyday applications. | Short diagnostic assessment on Displacement current and generation of electromagnetic waves; Electromagnetic spectrum, properties and everyday applications. Focus areas include conceptual accuracy, derivation awareness, circuit or graph interpretation where relevant, and timed numerical execution. |
| 09 Aug 2026 | Sunday | 11:00 AM – 12:00 PM | Doubt Session | Support | Doubt Clinic 18 — Live resolution of Displacement current and generation of electromagnetic waves; Electromagnetic spectrum, properties and everyday applications and discussion of common errors. | Live doubt-solving and error-analysis session centred on Displacement current and generation of electromagnetic waves; Electromagnetic spectrum, properties and everyday applications. Includes re-solving difficult questions, fixing sign-convention mistakes and clarifying the latest problem trends. |
| 11 Aug 2026 | Tuesday | 10:00 PM – 11:00 PM | Lecture | Ray Optics and Optical Instruments | Reflection of light, spherical mirrors and sign convention | Starts ray optics with reflection laws, mirror geometry, pole-focus-centre terms, and a consistent sign-convention framework. |
| 13 Aug 2026 | Thursday | 10:00 PM – 11:00 PM | Lecture | Ray Optics and Optical Instruments | Mirror formula, magnification and image formation numericals | Derives and applies mirror relations for image position, magnification, and standard case-based questions using ray reasoning and formulas. |
| 14 Aug 2026 | Friday | 06:00 PM | Assignment Release | Assignments | Assignment 8 — Ray Optics II — prism, TIR, microscope, telescope and defects-of-vision case-based questions. Submission deadline: 21 Aug 2026. | Practice pack released for self-study with derivation checks, NCERT-style numericals, competency questions and chapter-linked error-analysis tasks. |
| 15 Aug 2026 | Saturday | — | Holiday | Holiday Calendar | Independence Day — No Saturday test on this holiday; the next weekly test becomes cumulative. | No live academic session is planned on this date. The disrupted lecture, test, or doubt-support slot is compensated elsewhere in the calendar to preserve continuity. |
| 16 Aug 2026 | Sunday | 11:00 AM – 12:00 PM | Doubt Session | Support | Cumulative Doubt Clinic 19 — Live resolution of Reflection of light, spherical mirrors and sign convention; Mirror formula, magnification and image formation numericals and discussion of common errors. | Live doubt-solving and error-analysis session centred on Reflection of light, spherical mirrors and sign convention; Mirror formula, magnification and image formation numericals. Includes re-solving difficult questions, fixing sign-convention mistakes and clarifying the latest problem trends. |
| 18 Aug 2026 | Tuesday | 10:00 PM – 11:00 PM | Lecture | Ray Optics and Optical Instruments | Refraction at plane surface and apparent depth | Explains refraction basics, refractive index, optical density and the apparent depth phenomenon at plane interfaces. |
| 20 Aug 2026 | Thursday | 10:00 PM – 11:00 PM | Lecture | Ray Optics and Optical Instruments | Refraction at spherical surface and lens-maker bridge ideas | Builds the spherical-surface refraction result and prepares the conceptual bridge toward thin-lens relations and lens-making ideas. |
| 21 Aug 2026 | Friday | 09:00 PM | Assignment Deadline | Assignments | Deadline for Assignment 8 — Ray Optics II — prism, TIR, microscope, telescope and defects-of-vision case-based questions. | Submission checkpoint for the related worksheet. Students should finish the pack, mark unresolved doubts and be ready for review in the next support cycle. |
| 22 Aug 2026 | Saturday | 10:00 PM – 10:45 PM | Weekly Test | Assessment | Test 20 (Google Forms / equivalent) — Syllabus: Mirror formula, magnification and image formation numericals; Refraction at plane surface and apparent depth; Refraction at spherical surface and lens-maker bridge ideas. | Short diagnostic assessment on Mirror formula, magnification and image formation numericals; Refraction at plane surface and apparent depth; Refraction at spherical surface and lens-maker bridge ideas. Focus areas include conceptual accuracy, derivation awareness, circuit or graph interpretation where relevant, and timed numerical execution. |
| 23 Aug 2026 | Sunday | 11:00 AM – 12:00 PM | Doubt Session | Support | Doubt Clinic 20 — Live resolution of Mirror formula, magnification and image formation numericals; Refraction at plane surface and apparent depth; Refraction at spherical surface and lens-maker bridge ideas and discussion of common errors. | Live doubt-solving and error-analysis session centred on Mirror formula, magnification and image formation numericals; Refraction at plane surface and apparent depth; Refraction at spherical surface and lens-maker bridge ideas. Includes re-solving difficult questions, fixing sign-convention mistakes and clarifying the latest problem trends. |
| 25 Aug 2026 | Tuesday | 10:00 PM – 11:00 PM | Lecture | Ray Optics and Optical Instruments | Thin lens formula, power of lens and lens combinations | Uses thin-lens formula and power concept to solve image-formation problems and studies the equivalent power of combined lenses. |
| 27 Aug 2026 | Thursday | 10:00 PM – 11:00 PM | Lecture | Ray Optics and Optical Instruments | Refraction through prism, deviation and dispersion basics | Analyses prism geometry, angle of deviation, minimum deviation conditions, and the origin of dispersion through wavelength dependence. |
| 29 Aug 2026 | Saturday | 10:00 PM – 10:45 PM | Weekly Test | Assessment | Test 21 (Google Forms / equivalent) — Syllabus: Thin lens formula, power of lens and lens combinations; Refraction through prism, deviation and dispersion basics. | Short diagnostic assessment on Thin lens formula, power of lens and lens combinations; Refraction through prism, deviation and dispersion basics. Focus areas include conceptual accuracy, derivation awareness, circuit or graph interpretation where relevant, and timed numerical execution. |
| 30 Aug 2026 | Sunday | 11:00 AM – 12:00 PM | Doubt Session | Support | Doubt Clinic 21 — Live resolution of Thin lens formula, power of lens and lens combinations; Refraction through prism, deviation and dispersion basics and discussion of common errors. | Live doubt-solving and error-analysis session centred on Thin lens formula, power of lens and lens combinations; Refraction through prism, deviation and dispersion basics. Includes re-solving difficult questions, fixing sign-convention mistakes and clarifying the latest problem trends. |
September 2026
| Date | Day | Time | Session Type | Chapter / Bucket | Topic / coverage | Topic details covered / expected outcome |
|---|---|---|---|---|---|---|
| 01 Sep 2026 | Tuesday | 10:00 PM – 11:00 PM | Lecture | Ray Optics and Optical Instruments | Total internal reflection, optical fibre and related applications | Explains total internal reflection, critical angle, and practical uses such as optical fibres, prisms and mirage-type phenomena. |
| 03 Sep 2026 | Thursday | 10:00 PM – 11:00 PM | Lecture | Ray Optics and Optical Instruments | Optical instruments I: simple microscope and magnifying power | Studies the simple microscope, angular magnification, near point usage, and exam-oriented derivation structure. |
| 04 Sep 2026 | Friday | 06:00 PM | Assignment Release | Assignments | Assignment 9 — Ray Optics mixed pack — chapter consolidation worksheet with image-formation and instrument numericals. Submission deadline: 11 Sep 2026. | Practice pack released for self-study with derivation checks, NCERT-style numericals, competency questions and chapter-linked error-analysis tasks. |
| 05 Sep 2026 | Saturday | 10:00 PM – 10:45 PM | Weekly Test | Assessment | Test 22 (Google Forms / equivalent) — Syllabus: Total internal reflection, optical fibre and related applications; Optical instruments I: simple microscope and magnifying power. | Short diagnostic assessment on Total internal reflection, optical fibre and related applications; Optical instruments I: simple microscope and magnifying power. Focus areas include conceptual accuracy, derivation awareness, circuit or graph interpretation where relevant, and timed numerical execution. |
| 06 Sep 2026 | Sunday | 11:00 AM – 12:00 PM | Doubt Session | Support | Doubt Clinic 22 — Live resolution of Total internal reflection, optical fibre and related applications; Optical instruments I: simple microscope and magnifying power and discussion of common errors. | Live doubt-solving and error-analysis session centred on Total internal reflection, optical fibre and related applications; Optical instruments I: simple microscope and magnifying power. Includes re-solving difficult questions, fixing sign-convention mistakes and clarifying the latest problem trends. |
| 08 Sep 2026 | Tuesday | 10:00 PM – 11:00 PM | Lecture | Ray Optics and Optical Instruments | Optical instruments II: astronomical telescope and defects of vision | Covers telescope construction, magnifying power, and common visual defects with their lens-based correction. |
| 10 Sep 2026 | Thursday | 10:00 PM – 11:00 PM | Lecture | Ray Optics and Optical Instruments | Ray optics chapter consolidation and mixed problem practice | Brings together mirrors, refraction, lenses, prisms and optical instruments into one integrated numerical and concept-practice session. |
| 11 Sep 2026 | Friday | 09:00 PM | Assignment Deadline | Assignments | Deadline for Assignment 9 — Ray Optics mixed pack — chapter consolidation worksheet with image-formation and instrument numericals. | Submission checkpoint for the related worksheet. Students should finish the pack, mark unresolved doubts and be ready for review in the next support cycle. |
| 12 Sep 2026 | Saturday | 10:00 PM – 10:45 PM | Weekly Test | Assessment | Test 23 (Google Forms / equivalent) — Syllabus: Optical instruments II: astronomical telescope and defects of vision; Ray optics chapter consolidation and mixed problem practice. | Short diagnostic assessment on Optical instruments II: astronomical telescope and defects of vision; Ray optics chapter consolidation and mixed problem practice. Focus areas include conceptual accuracy, derivation awareness, circuit or graph interpretation where relevant, and timed numerical execution. |
| 13 Sep 2026 | Sunday | 11:00 AM – 12:00 PM | Doubt Session | Support | Doubt Clinic 23 — Live resolution of Optical instruments II: astronomical telescope and defects of vision; Ray optics chapter consolidation and mixed problem practice and discussion of common errors. | Live doubt-solving and error-analysis session centred on Optical instruments II: astronomical telescope and defects of vision; Ray optics chapter consolidation and mixed problem practice. Includes re-solving difficult questions, fixing sign-convention mistakes and clarifying the latest problem trends. |
| 15 Sep 2026 | Tuesday | 10:00 PM – 11:00 PM | Lecture | Wave Optics | Huygens' principle, wavefronts and proof of laws of reflection/refraction | Introduces wavefronts and Huygens' principle and uses them to explain reflection and refraction qualitatively. |
| 17 Sep 2026 | Thursday | 10:00 PM – 11:00 PM | Lecture | Wave Optics | Interference of light, Young double-slit experiment and fringe width | Builds the interference condition, derives fringe width, and solves intensity and path-difference questions in YDSE. |
| 19 Sep 2026 | Saturday | 10:00 PM – 10:45 PM | Weekly Test | Assessment | Test 24 (Google Forms / equivalent) — Syllabus: Huygens' principle, wavefronts and proof of laws of reflection/refraction; Interference of light, Young double-slit experiment and fringe width. | Short diagnostic assessment on Huygens' principle, wavefronts and proof of laws of reflection/refraction; Interference of light, Young double-slit experiment and fringe width. Focus areas include conceptual accuracy, derivation awareness, circuit or graph interpretation where relevant, and timed numerical execution. |
| 20 Sep 2026 | Sunday | 11:00 AM – 12:00 PM | Doubt Session | Support | Doubt Clinic 24 — Live resolution of Huygens' principle, wavefronts and proof of laws of reflection/refraction; Interference of light, Young double-slit experiment and fringe width and discussion of common errors. | Live doubt-solving and error-analysis session centred on Huygens' principle, wavefronts and proof of laws of reflection/refraction; Interference of light, Young double-slit experiment and fringe width. Includes re-solving difficult questions, fixing sign-convention mistakes and clarifying the latest problem trends. |
| 22 Sep 2026 | Tuesday | 10:00 PM – 11:00 PM | Lecture | Wave Optics | Coherent sources, sustained interference and thin conceptual traps | Clarifies coherence requirements, phase stability, constructive/destructive conditions and the most common interpretation errors. |
| 24 Sep 2026 | Thursday | 10:00 PM – 11:00 PM | Lecture | Wave Optics | Diffraction, resolving power and comparison with interference | Explains diffraction at a single slit, central maximum features, and resolving power in the context of wave-based optical behaviour. |
| 25 Sep 2026 | Friday | 06:00 PM | Assignment Release | Assignments | Assignment 10 — Wave Optics — YDSE, diffraction and polarisation competency questions. Submission deadline: 02 Oct 2026. | Practice pack released for self-study with derivation checks, NCERT-style numericals, competency questions and chapter-linked error-analysis tasks. |
| 26 Sep 2026 | Saturday | 10:00 PM – 10:45 PM | Weekly Test | Assessment | Test 25 (Google Forms / equivalent) — Syllabus: Coherent sources, sustained interference and thin conceptual traps; Diffraction, resolving power and comparison with interference. | Short diagnostic assessment on Coherent sources, sustained interference and thin conceptual traps; Diffraction, resolving power and comparison with interference. Focus areas include conceptual accuracy, derivation awareness, circuit or graph interpretation where relevant, and timed numerical execution. |
| 27 Sep 2026 | Sunday | 11:00 AM – 12:00 PM | Doubt Session | Support | Doubt Clinic 25 — Live resolution of Coherent sources, sustained interference and thin conceptual traps; Diffraction, resolving power and comparison with interference and discussion of common errors. | Live doubt-solving and error-analysis session centred on Coherent sources, sustained interference and thin conceptual traps; Diffraction, resolving power and comparison with interference. Includes re-solving difficult questions, fixing sign-convention mistakes and clarifying the latest problem trends. |
| 29 Sep 2026 | Tuesday | 10:00 PM – 11:00 PM | Lecture | Wave Optics | Polarisation and wave optics numericals | Uses polarisation to show the transverse nature of light and concludes the chapter with mixed fringe, diffraction and concept-based numericals. |
October 2026
| Date | Day | Time | Session Type | Chapter / Bucket | Topic / coverage | Topic details covered / expected outcome |
|---|---|---|---|---|---|---|
| 01 Oct 2026 | Thursday | 10:00 PM – 11:00 PM | Lecture | Dual Nature of Radiation and Matter | Photoelectric effect observations and experimental laws | Studies key observations of photoelectric emission and why classical wave theory could not explain threshold frequency and instant emission. |
| 02 Oct 2026 | Friday | 09:00 PM | Assignment Deadline | Assignments | Deadline for Assignment 10 — Wave Optics — YDSE, diffraction and polarisation competency questions. | Submission checkpoint for the related worksheet. Students should finish the pack, mark unresolved doubts and be ready for review in the next support cycle. |
| 03 Oct 2026 | Saturday | 10:00 PM – 10:45 PM | Weekly Test | Assessment | Test 26 (Google Forms / equivalent) — Syllabus: Polarisation and wave optics numericals; Photoelectric effect observations and experimental laws. | Short diagnostic assessment on Polarisation and wave optics numericals; Photoelectric effect observations and experimental laws. Focus areas include conceptual accuracy, derivation awareness, circuit or graph interpretation where relevant, and timed numerical execution. |
| 04 Oct 2026 | Sunday | 11:00 AM – 12:00 PM | Doubt Session | Support | Doubt Clinic 26 — Live resolution of Polarisation and wave optics numericals; Photoelectric effect observations and experimental laws and discussion of common errors. | Live doubt-solving and error-analysis session centred on Polarisation and wave optics numericals; Photoelectric effect observations and experimental laws. Includes re-solving difficult questions, fixing sign-convention mistakes and clarifying the latest problem trends. |
| 06 Oct 2026 | Tuesday | 10:00 PM – 11:00 PM | Lecture | Dual Nature of Radiation and Matter | Einstein's photoelectric equation and stopping potential numericals | Applies Einstein's quantum model to photoelectric effect and solves stopping-potential, work-function and frequency-based numericals. |
| 08 Oct 2026 | Thursday | 10:00 PM – 11:00 PM | Lecture | Dual Nature of Radiation and Matter | Matter waves, de Broglie relation and electron-wave interpretation | Introduces the de Broglie hypothesis and connects momentum with wavelength to explain the wave aspect of moving particles. |
| 10 Oct 2026 | Saturday | 10:00 PM – 10:45 PM | Weekly Test | Assessment | Test 27 (Google Forms / equivalent) — Syllabus: Einstein's photoelectric equation and stopping potential numericals; Matter waves, de Broglie relation and electron-wave interpretation. | Short diagnostic assessment on Einstein's photoelectric equation and stopping potential numericals; Matter waves, de Broglie relation and electron-wave interpretation. Focus areas include conceptual accuracy, derivation awareness, circuit or graph interpretation where relevant, and timed numerical execution. |
| 11 Oct 2026 | Sunday | 11:00 AM – 12:00 PM | Doubt Session | Support | Doubt Clinic 27 — Live resolution of Einstein's photoelectric equation and stopping potential numericals; Matter waves, de Broglie relation and electron-wave interpretation and discussion of common errors. | Live doubt-solving and error-analysis session centred on Einstein's photoelectric equation and stopping potential numericals; Matter waves, de Broglie relation and electron-wave interpretation. Includes re-solving difficult questions, fixing sign-convention mistakes and clarifying the latest problem trends. |
| 13 Oct 2026 | Tuesday | 10:00 PM – 11:00 PM | Lecture | Dual Nature of Radiation and Matter | Davisson-Germer experiment and chapter mixed applications | Uses electron diffraction as evidence of matter waves and consolidates the chapter through mixed conceptual and numerical practice. |
| 15 Oct 2026 | Thursday | 10:00 PM – 11:00 PM | Lecture | Atoms | Alpha-particle scattering and Rutherford nuclear model | Explains the Geiger-Marsden experiment, infers the nuclear atom model, and identifies the limitations of earlier atomic pictures. |
| 16 Oct 2026 | Friday | 06:00 PM | Assignment Release | Assignments | Assignment 11 — Dual Nature + Atoms — photoelectric equation, matter waves and hydrogen-spectrum practice. Submission deadline: 28 Oct 2026. | Practice pack released for self-study with derivation checks, NCERT-style numericals, competency questions and chapter-linked error-analysis tasks. |
| 17 Oct 2026 | Saturday | 10:00 PM – 10:45 PM | Weekly Test | Assessment | Test 28 (Google Forms / equivalent) — Syllabus: Davisson-Germer experiment and chapter mixed applications; Alpha-particle scattering and Rutherford nuclear model. | Short diagnostic assessment on Davisson-Germer experiment and chapter mixed applications; Alpha-particle scattering and Rutherford nuclear model. Focus areas include conceptual accuracy, derivation awareness, circuit or graph interpretation where relevant, and timed numerical execution. |
| 18 Oct 2026 | Sunday | 11:00 AM – 12:00 PM | Doubt Session | Support | Doubt Clinic 28 — Live resolution of Davisson-Germer experiment and chapter mixed applications; Alpha-particle scattering and Rutherford nuclear model and discussion of common errors. | Live doubt-solving and error-analysis session centred on Davisson-Germer experiment and chapter mixed applications; Alpha-particle scattering and Rutherford nuclear model. Includes re-solving difficult questions, fixing sign-convention mistakes and clarifying the latest problem trends. |
| 20 Oct 2026 | Tuesday | — | Holiday | Holiday Calendar | Dussehra — No live lecture on this holiday; lecture shifted to 24 Oct 2026 (Saturday). | No live academic session is planned on this date. The disrupted lecture, test, or doubt-support slot is compensated elsewhere in the calendar to preserve continuity. |
| 22 Oct 2026 | Thursday | 10:00 PM – 11:00 PM | Lecture | Atoms | Bohr model, postulates and hydrogen energy levels | States Bohr postulates, derives orbit radius and energy-level ideas, and connects the model to the hydrogen atom spectrum. |
| 24 Oct 2026 | Saturday | 10:00 PM – 11:00 PM | Lecture (Rescheduled) | Atoms | Spectral series, excitation-ionisation and atom numericals | Interprets spectral series, transitions, excitation and ionisation energies, and solves standard hydrogen-spectrum numericals. |
| 25 Oct 2026 | Sunday | 11:00 AM – 12:00 PM | Doubt Session | Support | Cumulative Doubt Clinic 29 — Live resolution of Bohr model, postulates and hydrogen energy levels; Spectral series, excitation-ionisation and atom numericals and discussion of common errors. | Live doubt-solving and error-analysis session centred on Bohr model, postulates and hydrogen energy levels; Spectral series, excitation-ionisation and atom numericals. Includes re-solving difficult questions, fixing sign-convention mistakes and clarifying the latest problem trends. |
| 27 Oct 2026 | Tuesday | 10:00 PM – 11:00 PM | Lecture | Nuclei | Nuclear size, density, constituents and mass-energy relation | Introduces nuclear scale, nucleons, approximate density, and the link between mass defect and energy using Einstein relation. |
| 28 Oct 2026 | Wednesday | 09:00 PM | Assignment Deadline | Assignments | Deadline for Assignment 11 — Dual Nature + Atoms — photoelectric equation, matter waves and hydrogen-spectrum practice. | Submission checkpoint for the related worksheet. Students should finish the pack, mark unresolved doubts and be ready for review in the next support cycle. |
| 29 Oct 2026 | Thursday | 10:00 PM – 11:00 PM | Lecture | Nuclei | Binding energy per nucleon and nuclear stability | Builds binding-energy concepts and uses the binding-energy-per-nucleon trend to explain relative nuclear stability. |
| 31 Oct 2026 | Saturday | 10:00 PM – 10:45 PM | Weekly Test | Assessment | Test 29 (Google Forms / equivalent) — Syllabus: Spectral series, excitation-ionisation and atom numericals; Nuclear size, density, constituents and mass-energy relation; Binding energy per nucleon and nuclear stability. | Short diagnostic assessment on Spectral series, excitation-ionisation and atom numericals; Nuclear size, density, constituents and mass-energy relation; Binding energy per nucleon and nuclear stability. Focus areas include conceptual accuracy, derivation awareness, circuit or graph interpretation where relevant, and timed numerical execution. |
November 2026
| Date | Day | Time | Session Type | Chapter / Bucket | Topic / coverage | Topic details covered / expected outcome |
|---|---|---|---|---|---|---|
| 01 Nov 2026 | Sunday | 11:00 AM – 12:00 PM | Doubt Session | Support | Doubt Clinic 30 — Live resolution of Spectral series, excitation-ionisation and atom numericals; Nuclear size, density, constituents and mass-energy relation; Binding energy per nucleon and nuclear stability and discussion of common errors. | Live doubt-solving and error-analysis session centred on Spectral series, excitation-ionisation and atom numericals; Nuclear size, density, constituents and mass-energy relation; Binding energy per nucleon and nuclear stability. Includes re-solving difficult questions, fixing sign-convention mistakes and clarifying the latest problem trends. |
| 03 Nov 2026 | Tuesday | 10:00 PM – 11:00 PM | Lecture | Nuclei | Radioactivity, decay law, half-life and mean life | Studies alpha, beta and gamma decay, derives decay relations, and works with half-life and mean-life calculations. |
| 05 Nov 2026 | Thursday | 10:00 PM – 11:00 PM | Lecture | Nuclei | Fission, fusion, nuclear energy and chapter numericals | Compares fission and fusion processes, discusses energy release and reactor ideas, and consolidates the chapter through numericals. |
| 06 Nov 2026 | Friday | 06:00 PM | Assignment Release | Assignments | Assignment 12 — Nuclei — binding-energy curve, decay law and nuclear-energy numericals. Submission deadline: 13 Nov 2026. | Practice pack released for self-study with derivation checks, NCERT-style numericals, competency questions and chapter-linked error-analysis tasks. |
| 07 Nov 2026 | Saturday | 10:00 PM – 10:45 PM | Weekly Test | Assessment | Test 30 (Google Forms / equivalent) — Syllabus: Radioactivity, decay law, half-life and mean life; Fission, fusion, nuclear energy and chapter numericals. | Short diagnostic assessment on Radioactivity, decay law, half-life and mean life; Fission, fusion, nuclear energy and chapter numericals. Focus areas include conceptual accuracy, derivation awareness, circuit or graph interpretation where relevant, and timed numerical execution. |
| 08 Nov 2026 | Sunday | — | Holiday | Holiday Calendar | Diwali / Deepavali — No Sunday doubt session on this holiday; unresolved queries are carried to the next live doubt clinic. | No live academic session is planned on this date. The disrupted lecture, test, or doubt-support slot is compensated elsewhere in the calendar to preserve continuity. |
| 10 Nov 2026 | Tuesday | 10:00 PM – 11:00 PM | Lecture | Semiconductor Electronics: Materials, Devices and Simple Circuits | Intrinsic and extrinsic semiconductors, doping and carrier concepts | Introduces semiconductor behaviour, band-gap view, intrinsic/extrinsic materials, doping and majority-minority carrier ideas. |
| 12 Nov 2026 | Thursday | 10:00 PM – 11:00 PM | Lecture | Semiconductor Electronics: Materials, Devices and Simple Circuits | PN junction formation, depletion region and diode characteristics | Explains PN junction formation, depletion layer, forward and reverse bias behaviour, and current-voltage characteristics of a diode. |
| 13 Nov 2026 | Friday | 09:00 PM | Assignment Deadline | Assignments | Deadline for Assignment 12 — Nuclei — binding-energy curve, decay law and nuclear-energy numericals. | Submission checkpoint for the related worksheet. Students should finish the pack, mark unresolved doubts and be ready for review in the next support cycle. |
| 14 Nov 2026 | Saturday | 10:00 PM – 10:45 PM | Weekly Test | Assessment | Test 31 (Google Forms / equivalent) — Syllabus: Intrinsic and extrinsic semiconductors, doping and carrier concepts; PN junction formation, depletion region and diode characteristics. | Short diagnostic assessment on Intrinsic and extrinsic semiconductors, doping and carrier concepts; PN junction formation, depletion region and diode characteristics. Focus areas include conceptual accuracy, derivation awareness, circuit or graph interpretation where relevant, and timed numerical execution. |
| 15 Nov 2026 | Sunday | 11:00 AM – 12:00 PM | Doubt Session | Support | Doubt Clinic 31 — Live resolution of Intrinsic and extrinsic semiconductors, doping and carrier concepts; PN junction formation, depletion region and diode characteristics and discussion of common errors. | Live doubt-solving and error-analysis session centred on Intrinsic and extrinsic semiconductors, doping and carrier concepts; PN junction formation, depletion region and diode characteristics. Includes re-solving difficult questions, fixing sign-convention mistakes and clarifying the latest problem trends. |
| 17 Nov 2026 | Tuesday | 10:00 PM – 11:00 PM | Lecture | Semiconductor Electronics: Materials, Devices and Simple Circuits | Rectifiers, filters and practical diode applications | Builds half-wave and full-wave rectifier ideas, ripple reduction by filters, and practical uses of diode-based circuits. |
| 19 Nov 2026 | Thursday | 10:00 PM – 11:00 PM | Lecture | Semiconductor Electronics: Materials, Devices and Simple Circuits | Zener diode, voltage regulation and junction-device numericals | Studies Zener breakdown, regulation principle and calculation-based applications involving regulated output and safe operating conditions. |
| 20 Nov 2026 | Friday | 06:00 PM | Assignment Release | Assignments | Assignment 13 — Semiconductor Electronics — PN junction, rectifiers, zener and logic-gate worksheet. Submission deadline: 27 Nov 2026. | Practice pack released for self-study with derivation checks, NCERT-style numericals, competency questions and chapter-linked error-analysis tasks. |
| 21 Nov 2026 | Saturday | 10:00 PM – 10:45 PM | Weekly Test | Assessment | Test 32 (Google Forms / equivalent) — Syllabus: Rectifiers, filters and practical diode applications; Zener diode, voltage regulation and junction-device numericals. | Short diagnostic assessment on Rectifiers, filters and practical diode applications; Zener diode, voltage regulation and junction-device numericals. Focus areas include conceptual accuracy, derivation awareness, circuit or graph interpretation where relevant, and timed numerical execution. |
| 22 Nov 2026 | Sunday | 11:00 AM – 12:00 PM | Doubt Session | Support | Doubt Clinic 32 — Live resolution of Rectifiers, filters and practical diode applications; Zener diode, voltage regulation and junction-device numericals and discussion of common errors. | Live doubt-solving and error-analysis session centred on Rectifiers, filters and practical diode applications; Zener diode, voltage regulation and junction-device numericals. Includes re-solving difficult questions, fixing sign-convention mistakes and clarifying the latest problem trends. |
| 24 Nov 2026 | Tuesday | 10:00 PM – 11:00 PM | Lecture | Semiconductor Electronics: Materials, Devices and Simple Circuits | Logic gates, truth tables and Boolean combinations | Introduces NOT, OR, AND, NAND and NOR gates with truth tables and basic digital-circuit interpretation. |
| 26 Nov 2026 | Thursday | 10:00 PM – 11:00 PM | Lecture | Semiconductor Electronics: Materials, Devices and Simple Circuits | Semiconductor chapter consolidation and mixed digital practice | Concludes the core syllabus with device revision, logic-gate combinations and mixed objective-plus-application problems. |
| 27 Nov 2026 | Friday | 09:00 PM | Assignment Deadline | Assignments | Deadline for Assignment 13 — Semiconductor Electronics — PN junction, rectifiers, zener and logic-gate worksheet. | Submission checkpoint for the related worksheet. Students should finish the pack, mark unresolved doubts and be ready for review in the next support cycle. |
| 28 Nov 2026 | Saturday | 10:00 PM – 10:45 PM | Weekly Test | Assessment | Test 33 (Google Forms / equivalent) — Syllabus: Logic gates, truth tables and Boolean combinations; Semiconductor chapter consolidation and mixed digital practice. | Short diagnostic assessment on Logic gates, truth tables and Boolean combinations; Semiconductor chapter consolidation and mixed digital practice. Focus areas include conceptual accuracy, derivation awareness, circuit or graph interpretation where relevant, and timed numerical execution. |
| 29 Nov 2026 | Sunday | 11:00 AM – 12:00 PM | Doubt Session | Support | Doubt Clinic 33 — Live resolution of Logic gates, truth tables and Boolean combinations; Semiconductor chapter consolidation and mixed digital practice and discussion of common errors. | Live doubt-solving and error-analysis session centred on Logic gates, truth tables and Boolean combinations; Semiconductor chapter consolidation and mixed digital practice. Includes re-solving difficult questions, fixing sign-convention mistakes and clarifying the latest problem trends. |
December 2026
| Date | Day | Time | Session Type | Chapter / Bucket | Topic / coverage | Topic details covered / expected outcome |
|---|---|---|---|---|---|---|
| 01 Dec 2026 | Tuesday | 10:00 PM – 11:00 PM | Lecture | Revision & Exam Readiness | Electrostatics revision I: charge, field and Gauss-law framework | Revises charge properties, field ideas, dipole basics and Gauss-law strategy with a focus on derivations and direct formula application. |
| 03 Dec 2026 | Thursday | 10:00 PM – 11:00 PM | Lecture | Revision & Exam Readiness | Electrostatics revision II: potential, capacitance and energy recap | Consolidates potential, equipotential surfaces, capacitor combinations, dielectric effects and electrostatic energy methods. |
| 05 Dec 2026 | Saturday | 10:00 PM – 10:45 PM | Weekly Test | Assessment | Test 34 (Google Forms / equivalent) — Syllabus: Electrostatics revision I: charge, field and Gauss-law framework; Electrostatics revision II: potential, capacitance and energy recap. | Short diagnostic assessment on Electrostatics revision I: charge, field and Gauss-law framework; Electrostatics revision II: potential, capacitance and energy recap. Focus areas include conceptual accuracy, derivation awareness, circuit or graph interpretation where relevant, and timed numerical execution. |
| 06 Dec 2026 | Sunday | 11:00 AM – 12:00 PM | Doubt Session | Support | Doubt Clinic 34 — Live resolution of Electrostatics revision I: charge, field and Gauss-law framework; Electrostatics revision II: potential, capacitance and energy recap and discussion of common errors. | Live doubt-solving and error-analysis session centred on Electrostatics revision I: charge, field and Gauss-law framework; Electrostatics revision II: potential, capacitance and energy recap. Includes re-solving difficult questions, fixing sign-convention mistakes and clarifying the latest problem trends. |
| 08 Dec 2026 | Tuesday | 10:00 PM – 11:00 PM | Lecture | Revision & Exam Readiness | Current electricity revision I: microscopic theory to network reduction | Revises current, drift velocity, resistivity, internal resistance and quick simplification of resistor combinations. |
| 10 Dec 2026 | Thursday | 10:00 PM – 11:00 PM | Lecture | Revision & Exam Readiness | Current electricity revision II: Kirchhoff, bridge and potentiometer drill | Focuses on circuit-equation setup, Wheatstone and meter bridge applications, potentiometer logic and common exam mistakes. |
| 12 Dec 2026 | Saturday | 10:00 PM – 10:45 PM | Weekly Test | Assessment | Test 35 (Google Forms / equivalent) — Syllabus: Current electricity revision I: microscopic theory to network reduction; Current electricity revision II: Kirchhoff, bridge and potentiometer drill. | Short diagnostic assessment on Current electricity revision I: microscopic theory to network reduction; Current electricity revision II: Kirchhoff, bridge and potentiometer drill. Focus areas include conceptual accuracy, derivation awareness, circuit or graph interpretation where relevant, and timed numerical execution. |
| 13 Dec 2026 | Sunday | 11:00 AM – 12:00 PM | Doubt Session | Support | Doubt Clinic 35 — Live resolution of Current electricity revision I: microscopic theory to network reduction; Current electricity revision II: Kirchhoff, bridge and potentiometer drill and discussion of common errors. | Live doubt-solving and error-analysis session centred on Current electricity revision I: microscopic theory to network reduction; Current electricity revision II: Kirchhoff, bridge and potentiometer drill. Includes re-solving difficult questions, fixing sign-convention mistakes and clarifying the latest problem trends. |
| 15 Dec 2026 | Tuesday | 10:00 PM – 11:00 PM | Lecture | Revision & Exam Readiness | Magnetism revision I: moving charges, Biot-Savart and Ampere law | Revises magnetic force, loop and solenoid field results, and high-yield derivations from moving charges and magnetism. |
| 17 Dec 2026 | Thursday | 10:00 PM – 11:00 PM | Lecture | Revision & Exam Readiness | Magnetism revision II: galvanometer, earth magnetism and materials | Bridges current-loop torque, galvanometer conversion, earth-magnetism basics and magnetic-material classification. |
| 18 Dec 2026 | Friday | 06:00 PM | Assignment Release | Assignments | Assignment 14 — Revision Pack I — Electrostatics to AC cumulative worksheet with mixed board-style sections. Submission deadline: 06 Jan 2027. | Practice pack released for self-study with derivation checks, NCERT-style numericals, competency questions and chapter-linked error-analysis tasks. |
| 19 Dec 2026 | Saturday | 10:00 PM – 10:45 PM | Weekly Test | Assessment | Test 36 (Google Forms / equivalent) — Syllabus: Magnetism revision I: moving charges, Biot-Savart and Ampere law; Magnetism revision II: galvanometer, earth magnetism and materials. | Short diagnostic assessment on Magnetism revision I: moving charges, Biot-Savart and Ampere law; Magnetism revision II: galvanometer, earth magnetism and materials. Focus areas include conceptual accuracy, derivation awareness, circuit or graph interpretation where relevant, and timed numerical execution. |
| 20 Dec 2026 | Sunday | 11:00 AM – 12:00 PM | Doubt Session | Support | Doubt Clinic 36 — Live resolution of Magnetism revision I: moving charges, Biot-Savart and Ampere law; Magnetism revision II: galvanometer, earth magnetism and materials and discussion of common errors. | Live doubt-solving and error-analysis session centred on Magnetism revision I: moving charges, Biot-Savart and Ampere law; Magnetism revision II: galvanometer, earth magnetism and materials. Includes re-solving difficult questions, fixing sign-convention mistakes and clarifying the latest problem trends. |
| 22 Dec 2026 | Tuesday | 10:00 PM – 11:00 PM | Lecture | Revision & Exam Readiness | EMI revision I: flux change, Lenz law and induced emf numericals | Reviews Faraday and Lenz laws, sign logic, motional emf and induction-based numerical formats. |
| 24 Dec 2026 | Thursday | 10:00 PM – 11:00 PM | Lecture | Revision & Exam Readiness | EMI-AC revision II: inductance, LCR resonance and power factor | Combines inductance ideas with AC reactance, resonance, phasor understanding and power-factor reasoning. |
| 26 Dec 2026 | Saturday | 10:00 PM – 10:45 PM | Weekly Test | Assessment | Test 37 (Google Forms / equivalent) — Syllabus: EMI revision I: flux change, Lenz law and induced emf numericals; EMI-AC revision II: inductance, LCR resonance and power factor. | Short diagnostic assessment on EMI revision I: flux change, Lenz law and induced emf numericals; EMI-AC revision II: inductance, LCR resonance and power factor. Focus areas include conceptual accuracy, derivation awareness, circuit or graph interpretation where relevant, and timed numerical execution. |
| 27 Dec 2026 | Sunday | 11:00 AM – 12:00 PM | Doubt Session | Support | Doubt Clinic 37 — Live resolution of EMI revision I: flux change, Lenz law and induced emf numericals; EMI-AC revision II: inductance, LCR resonance and power factor and discussion of common errors. | Live doubt-solving and error-analysis session centred on EMI revision I: flux change, Lenz law and induced emf numericals; EMI-AC revision II: inductance, LCR resonance and power factor. Includes re-solving difficult questions, fixing sign-convention mistakes and clarifying the latest problem trends. |
| 29 Dec 2026 | Tuesday | 10:00 PM – 11:00 PM | Lecture | Revision & Exam Readiness | AC and electromagnetic waves bridge revision | Links transformer and transmission concepts with displacement current, electromagnetic-wave generation and spectrum applications. |
| 31 Dec 2026 | Thursday | 10:00 PM – 11:00 PM | Lecture | Revision & Exam Readiness | Ray optics revision I: mirrors, refraction and lens formulae | Rapidly revises image formation in mirrors and lenses, refraction relations and sign-convention-based formula usage. |
January 2027
| Date | Day | Time | Session Type | Chapter / Bucket | Topic / coverage | Topic details covered / expected outcome |
|---|---|---|---|---|---|---|
| 02 Jan 2027 | Saturday | 10:00 PM – 10:45 PM | Weekly Test | Assessment | Test 38 (Google Forms / equivalent) — Syllabus: AC and electromagnetic waves bridge revision; Ray optics revision I: mirrors, refraction and lens formulae. | Short diagnostic assessment on AC and electromagnetic waves bridge revision; Ray optics revision I: mirrors, refraction and lens formulae. Focus areas include conceptual accuracy, derivation awareness, circuit or graph interpretation where relevant, and timed numerical execution. |
| 03 Jan 2027 | Sunday | 11:00 AM – 12:00 PM | Doubt Session | Support | Doubt Clinic 38 — Live resolution of AC and electromagnetic waves bridge revision; Ray optics revision I: mirrors, refraction and lens formulae and discussion of common errors. | Live doubt-solving and error-analysis session centred on AC and electromagnetic waves bridge revision; Ray optics revision I: mirrors, refraction and lens formulae. Includes re-solving difficult questions, fixing sign-convention mistakes and clarifying the latest problem trends. |
| 05 Jan 2027 | Tuesday | 10:00 PM – 11:00 PM | Lecture | Revision & Exam Readiness | Ray optics revision II: prism, TIR and optical instruments | Covers prism deviation, total internal reflection, microscope, telescope and visual-defect correction in one integrated recap. |
| 06 Jan 2027 | Wednesday | 09:00 PM | Assignment Deadline | Assignments | Deadline for Assignment 14 — Revision Pack I — Electrostatics to AC cumulative worksheet with mixed board-style sections. | Submission checkpoint for the related worksheet. Students should finish the pack, mark unresolved doubts and be ready for review in the next support cycle. |
| 07 Jan 2027 | Thursday | 10:00 PM – 11:00 PM | Lecture | Revision & Exam Readiness | Wave optics revision: Huygens, YDSE, diffraction and polarisation | Revises interference conditions, fringe width, diffraction trends and polarisation-based conceptual questions. |
| 09 Jan 2027 | Saturday | 10:00 PM – 10:45 PM | Weekly Test | Assessment | Test 39 (Google Forms / equivalent) — Syllabus: Ray optics revision II: prism, TIR and optical instruments; Wave optics revision: Huygens, YDSE, diffraction and polarisation. | Short diagnostic assessment on Ray optics revision II: prism, TIR and optical instruments; Wave optics revision: Huygens, YDSE, diffraction and polarisation. Focus areas include conceptual accuracy, derivation awareness, circuit or graph interpretation where relevant, and timed numerical execution. |
| 10 Jan 2027 | Sunday | 11:00 AM – 12:00 PM | Doubt Session | Support | Doubt Clinic 39 — Live resolution of Ray optics revision II: prism, TIR and optical instruments; Wave optics revision: Huygens, YDSE, diffraction and polarisation and discussion of common errors. | Live doubt-solving and error-analysis session centred on Ray optics revision II: prism, TIR and optical instruments; Wave optics revision: Huygens, YDSE, diffraction and polarisation. Includes re-solving difficult questions, fixing sign-convention mistakes and clarifying the latest problem trends. |
| 12 Jan 2027 | Tuesday | 10:00 PM – 11:00 PM | Lecture | Revision & Exam Readiness | Modern physics revision I: photoelectric effect and matter waves | Consolidates the quantum idea, Einstein photoelectric equation, de Broglie relation and experimental proof of matter waves. |
| 14 Jan 2027 | Thursday | 10:00 PM – 11:00 PM | Lecture | Revision & Exam Readiness | Modern physics revision II: atoms and spectra | Revises Rutherford and Bohr models, hydrogen energy levels and spectral-transition questions. |
| 16 Jan 2027 | Saturday | 10:00 PM – 10:45 PM | Weekly Test | Assessment | Test 40 (Google Forms / equivalent) — Syllabus: Modern physics revision I: photoelectric effect and matter waves; Modern physics revision II: atoms and spectra. | Short diagnostic assessment on Modern physics revision I: photoelectric effect and matter waves; Modern physics revision II: atoms and spectra. Focus areas include conceptual accuracy, derivation awareness, circuit or graph interpretation where relevant, and timed numerical execution. |
| 17 Jan 2027 | Sunday | 11:00 AM – 12:00 PM | Doubt Session | Support | Doubt Clinic 40 — Live resolution of Modern physics revision I: photoelectric effect and matter waves; Modern physics revision II: atoms and spectra and discussion of common errors. | Live doubt-solving and error-analysis session centred on Modern physics revision I: photoelectric effect and matter waves; Modern physics revision II: atoms and spectra. Includes re-solving difficult questions, fixing sign-convention mistakes and clarifying the latest problem trends. |
| 19 Jan 2027 | Tuesday | 10:00 PM – 11:00 PM | Lecture | Revision & Exam Readiness | Modern physics revision III: nuclei, decay and nuclear energy | Reviews binding energy, decay law, half-life, fission and fusion using concise exam-oriented summaries. |
| 21 Jan 2027 | Thursday | 10:00 PM – 11:00 PM | Lecture | Revision & Exam Readiness | Semiconductor revision I: PN junction, rectifiers and zener | Revises semiconductor basics, diode behaviour, rectifier circuits and zener-based regulation. |
| 22 Jan 2027 | Friday | 06:00 PM | Assignment Release | Assignments | Assignment 15 — Full syllabus final practice pack — optics, modern physics, electronics and cumulative revision sheet. Submission deadline: 10 Feb 2027. | Practice pack released for self-study with derivation checks, NCERT-style numericals, competency questions and chapter-linked error-analysis tasks. |
| 23 Jan 2027 | Saturday | 10:00 PM – 10:45 PM | Weekly Test | Assessment | Test 41 (Google Forms / equivalent) — Syllabus: Modern physics revision III: nuclei, decay and nuclear energy; Semiconductor revision I: PN junction, rectifiers and zener. | Short diagnostic assessment on Modern physics revision III: nuclei, decay and nuclear energy; Semiconductor revision I: PN junction, rectifiers and zener. Focus areas include conceptual accuracy, derivation awareness, circuit or graph interpretation where relevant, and timed numerical execution. |
| 24 Jan 2027 | Sunday | 11:00 AM – 12:00 PM | Doubt Session | Support | Doubt Clinic 41 — Live resolution of Modern physics revision III: nuclei, decay and nuclear energy; Semiconductor revision I: PN junction, rectifiers and zener and discussion of common errors. | Live doubt-solving and error-analysis session centred on Modern physics revision III: nuclei, decay and nuclear energy; Semiconductor revision I: PN junction, rectifiers and zener. Includes re-solving difficult questions, fixing sign-convention mistakes and clarifying the latest problem trends. |
| 26 Jan 2027 | Tuesday | — | Holiday | Holiday Calendar | Republic Day — No live revision lecture on this holiday; lecture shifted to 30 Jan 2027 (Saturday). | No live academic session is planned on this date. The disrupted lecture, test, or doubt-support slot is compensated elsewhere in the calendar to preserve continuity. |
| 28 Jan 2027 | Thursday | 10:00 PM – 11:00 PM | Lecture | Revision & Exam Readiness | Full syllabus mixed revision I: Electrostatics + Current Electricity | Combines the most tested derivations and numericals from electrostatics and current electricity into a mixed-practice session. |
| 30 Jan 2027 | Saturday | 10:00 PM – 11:00 PM | Lecture (Rescheduled) | Revision & Exam Readiness | Full syllabus mixed revision II: Magnetism + EMI + AC | Integrates magnetic effects, induction and alternating current into a high-speed result recap and cumulative problem drill. |
| 31 Jan 2027 | Sunday | 11:00 AM – 12:00 PM | Doubt Session | Support | Cumulative Doubt Clinic 42 — Live resolution of Full syllabus mixed revision I: Electrostatics + Current Electricity; Full syllabus mixed revision II: Magnetism + EMI + AC and discussion of common errors. | Live doubt-solving and error-analysis session centred on Full syllabus mixed revision I: Electrostatics + Current Electricity; Full syllabus mixed revision II: Magnetism + EMI + AC. Includes re-solving difficult questions, fixing sign-convention mistakes and clarifying the latest problem trends. |
February 2027
| Date | Day | Time | Session Type | Chapter / Bucket | Topic / coverage | Topic details covered / expected outcome |
|---|---|---|---|---|---|---|
| 02 Feb 2027 | Tuesday | 10:00 PM – 11:00 PM | Lecture | Revision & Exam Readiness | Full syllabus mixed revision III: Optics mega recap | Targets ray optics and wave optics together through formulas, conceptual traps and prior-test error patterns. |
| 04 Feb 2027 | Thursday | 10:00 PM – 11:00 PM | Lecture | Revision & Exam Readiness | Full syllabus mixed revision IV: Modern Physics + Electronics | Brings together dual nature, atoms, nuclei and semiconductors for compact last-phase revision and formula matching. |
| 06 Feb 2027 | Saturday | 10:00 PM – 10:45 PM | Weekly Test | Assessment | Test 42 (Google Forms / equivalent) — Syllabus: Full syllabus mixed revision II: Magnetism + EMI + AC; Full syllabus mixed revision III: Optics mega recap; Full syllabus mixed revision IV: Modern Physics + Electronics. | Short diagnostic assessment on Full syllabus mixed revision II: Magnetism + EMI + AC; Full syllabus mixed revision III: Optics mega recap; Full syllabus mixed revision IV: Modern Physics + Electronics. Focus areas include conceptual accuracy, derivation awareness, circuit or graph interpretation where relevant, and timed numerical execution. |
| 07 Feb 2027 | Sunday | 11:00 AM – 12:00 PM | Doubt Session | Support | Doubt Clinic 43 — Live resolution of Full syllabus mixed revision II: Magnetism + EMI + AC; Full syllabus mixed revision III: Optics mega recap; Full syllabus mixed revision IV: Modern Physics + Electronics and discussion of common errors. | Live doubt-solving and error-analysis session centred on Full syllabus mixed revision II: Magnetism + EMI + AC; Full syllabus mixed revision III: Optics mega recap; Full syllabus mixed revision IV: Modern Physics + Electronics. Includes re-solving difficult questions, fixing sign-convention mistakes and clarifying the latest problem trends. |
| 09 Feb 2027 | Tuesday | 10:00 PM – 11:00 PM | Lecture | Revision & Exam Readiness | Sample paper discussion and chapter-wise error analysis | Uses model-paper style questions to diagnose common mistakes in diagrams, sign conventions, derivations and unit handling. |
| 10 Feb 2027 | Wednesday | 09:00 PM | Assignment Deadline | Assignments | Deadline for Assignment 15 — Full syllabus final practice pack — optics, modern physics, electronics and cumulative revision sheet. | Submission checkpoint for the related worksheet. Students should finish the pack, mark unresolved doubts and be ready for review in the next support cycle. |
| 11 Feb 2027 | Thursday | 10:00 PM – 11:00 PM | Lecture | Revision & Exam Readiness | NCERT exemplar and competency-question strategy session | Focuses on competency-style framing, multi-concept questions, assertion-reason formats and efficient board-answer structuring. |
| 13 Feb 2027 | Saturday | 10:00 PM – 10:45 PM | Weekly Test | Assessment | Test 43 (Google Forms / equivalent) — Syllabus: Sample paper discussion and chapter-wise error analysis; NCERT exemplar and competency-question strategy session. | Short diagnostic assessment on Sample paper discussion and chapter-wise error analysis; NCERT exemplar and competency-question strategy session. Focus areas include conceptual accuracy, derivation awareness, circuit or graph interpretation where relevant, and timed numerical execution. |
| 14 Feb 2027 | Sunday | 11:00 AM – 12:00 PM | Doubt Session | Support | Doubt Clinic 44 — Live resolution of Sample paper discussion and chapter-wise error analysis; NCERT exemplar and competency-question strategy session and discussion of common errors. | Live doubt-solving and error-analysis session centred on Sample paper discussion and chapter-wise error analysis; NCERT exemplar and competency-question strategy session. Includes re-solving difficult questions, fixing sign-convention mistakes and clarifying the latest problem trends. |
| 15 Feb 2027 | Monday | 10:00 PM – 11:15 PM | Special Revision Masterclass | Revision & Exam Readiness | Final revision sprint, board strategy and practical-viva pointers | Closes the plan with final formula revision, topic-priority guidance, exam-hall strategy and practical-viva readiness notes. |
Source notes
- The Class 12 chapter sequence and unit grouping are aligned to the official CBSE Senior Secondary Physics curriculum document (Subject Code 042), which lists Electrostatics through Semiconductor Electronics as the core theory progression.
- Topic naming and pacing are also kept consistent with the official NCERT Class 12 Physics textbook structure (Part I and Part II), used as the textbook anchor for chapter flow and concept granularity.
- This page is an academic planning model for online live teaching. It is not an official school-issued timetable; it is a teaching calendar constructed around the above curriculum sequence, weekly assessment rhythm and revision goals.
Official references: CBSE Senior Secondary Physics Curriculum PDF · NCERT Class 12 Physics Part I · NCERT Class 12 Physics Part II