Lesson 1Week 4: Properties of matter and fluids — elasticity, pressure, buoyancy; targeted problem sets and conceptual checksExplore elasticity, surface tension, and fluid statics to grasp real-world applications and NEET scenarios. Practise pressure, buoyancy, and Bernoulli problems, focusing on units, approximations, and common conceptual errors.
Stress, strain and Young’s modulus basicsElastic potential energy and springs in seriesPressure in fluids and Pascal’s lawBuoyancy, Archimedes’ principle and floatationBernoulli’s theorem and continuity equationConceptual and numeric fluid MCQ drillsLesson 2Week 10: Revision, full-length mock, error analysis and final targeted improvement planReview all ten weeks through full-length mock tests, thorough error review, and topic-specific revision. Develop a closing improvement plan targeting weaknesses, exam mindset, and last-minute NEET tactics.
Full-length NEET pattern physics mock testSection-wise time management strategiesError log creation and analysis methodsTargeted revision of weak topic clustersHigh-yield formula and concept flash reviewFinal week exam strategy and mindset planLesson 3Week 7: Electricity and magnetism I — electrostatics, capacitors, Gauss’s law; formula mastery and layered exercisesStart with electricity and magnetism focusing on electrostatics and capacitors. Concentrate on fields, potentials, Gauss’s law, and basic RC circuits, using formula guides, field line visuals, and progressively challenging exercises.
Coulomb’s law and electric field patternsElectric flux and Gauss’s law applicationsElectric potential and equipotential surfacesCapacitance, series and parallel networksDielectrics and energy stored in capacitorsFormula drills and layered electrostatics MCQsLesson 4Week 5: Thermodynamics and kinetic theory — laws, specific heats, calorimetry; former-year question focusDelve into thermodynamics laws, heat transfer, and kinetic theory, prioritising NEET-relevant formulas. Tackle calorimetry, specific heats, and gas processes with questions styled after past exams and concise summary notes.
Thermal expansion and specific heat basicsZeroth and first laws of thermodynamicsIsothermal, adiabatic and cyclic processesHeat transfer: conduction, convection, radiationCalorimetry and phase change numericalsKinetic theory and gas equation MCQsLesson 5Week 2: Newtonian mechanics and applications — laws, friction, circular motion; practice plan and homeworkGrasp Newton’s laws, friction, and circular motion via structured examples. Master free-body diagrams, constraints, and typical NEET pitfalls, then reinforce with graduated problems and focused homework tasks.
Newton’s laws and free-body diagramsTension, normal reaction and pseudo forceStatic and kinetic friction with limiting caseCircular motion: centripetal force and bankingCommon NEET patterns in force problemsDaily homework and timed practice setsLesson 6Week 9: Modern physics and optics — photoelectric effect, atomic models, ray and wave optics; problem clusters and conceptual MCQsStudy modern physics and optics, including photoelectric effect, atomic models, ray and wave optics. Stress standard derivations, sign conventions, and frequent NEET conceptual challenges with grouped problem sets.
Photoelectric effect and Einstein equationBohr model, spectra and energy levelsRadioactivity and nuclear reactions basicsRay optics: mirrors, lenses and sign rulesWave optics: interference and diffractionClustered modern physics and optics MCQsLesson 7Week 6: Waves, oscillations, and sound — SHM, wave equation, Doppler effect; timed practice and concept mapsStrengthen knowledge of SHM, waves, and sound. Cover standard equations, phase ideas, and Doppler effect, applying them in timed assessments, resonance tasks, and diagram-based NEET multiple-choice questions.
Simple harmonic motion and energy graphsAngular SHM and spring–mass systemsWave equation, speed and superpositionInterference, beats and resonance basicsSound intensity, level and Doppler effectTimed SHM and wave mixed MCQ practiceLesson 8Week 3: Work, energy, power and momentum — concept list, typical NEET numeric patterns, mixed-chapter MCQsLink work, energy, power, and momentum using conservation principles. Target collision varieties, variable forces, and inter-chapter numericals matching NEET complexity, emphasising efficient solution methods.
Work by constant and variable forcesKinetic and potential energy graphsConservation of mechanical energy in systemsImpulse, momentum and types of collisionsPower in translational and circular motionMixed WEP and momentum NEET-style MCQsLesson 9Week 1: Mechanics fundamentals — kinematics, vectors, motion in one and two dimensions; essential formulas and question typesEstablish mechanics basics with kinematics and vectors in one and two dimensions. Focus on visualising motion, memorising key NEET formulas, and practising common question formats with step-by-step guidance.
Scalar and vector basics with components1D motion: displacement, velocity, graphs2D projectile motion and range formulaeRelative velocity in one and two dimensionsStandard kinematics formula sheet for NEETSingle-concept and mixed kinematics MCQsLesson 10Week 8: Electricity and magnetism II — current electricity, circuits, magnetic effects, EMF; multi-concept mixed testsAdvance to current electricity and magnetism, covering circuits, magnetic fields, and EMF. Practise Kirchhoff’s laws, moving charges, and conductor forces via multi-concept NEET-level mixed tests and reviews.
Ohm’s law, resistors and network reductionKirchhoff’s rules and bridge circuitsHeating effect of current and power ratingsMagnetic field due to current and loopsForce on moving charges and conductorsMulti-concept circuit and magnetism tests
