View 163 Lectures [109 hrs : 21 mins] on MHT-CET (Maharashtra Common Entrance Test) Physics

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163 Lectures [109 hrs : 21 mins] on MHT-CET (Maharashtra Common Entrance Test) Physics. Click title below to see corresponding lecture.

Overall Progress%

  1. Basic Trigonometry: Understanding Small Angle Approximations 7 mins
  2. Units and Measurements: SI Units, System of Units, Supplementary Units 24 mins
  3. Dimensional Analysis: Units 43 mins
  4. Significant Figures: Rules and Rounding Off 23 mins
  5. Errors and Types of Errors 43 mins
  6. Numericals for Units and Measurements 16 mins
  7. Vectors: Scalar, Unit, Equal, Negative, Null Vectors; Cross and Dot Product & Projection 35 mins
  8. Rest and Motion, Distance & Displacement; Average and Instantaneous Speed, Velocity and Acceleration 34 mins
  9. Motion in Straight Line, Kinematic Equations and Freely Falling Bodies 31 mins
  10. Motion in A Plane, Position Vector, Velocity, Acceleration, Uniform Circular Motion 34 mins
  11. Projectile Motion: Time of Flight, Range, Horizontal and Vertical Motion 27 mins
  12. Kinematics: Problems and Numericals 43 mins
  13. Force and Newton՚s First Law of Motion 1 hrs : 8 mins
  14. Newton՚s Second Law of Motion: Impulse, Linear Momentum 52 mins
  15. Newton՚s Third Law of Motion: Climbing Rope, Pseudo Forces and Weighing Machine 43 mins
  16. Conservation of Momentum 37 mins
  17. Static and Kinetic Friction 39 mins
  18. Law of Friction and Rolling Friction 33 mins
  19. Dynamics of Circular Motion 46 mins
  20. Applications of Circular Motion 43 mins
  21. Laws of Motion: Numericals 20 mins
  22. Work Done by Constant and Variable Forces 31 mins
  23. Kinetic and Potential Energy 37 mins
  24. Work Energy Theorem and Power 37 mins
  25. Conservative and Non-Conservative Forcces 35 mins
  26. Motion in Vertical Plane 59 mins
  27. Newton՚s Law of Gravitation and Features of Gravitational Force 27 mins
  28. Kepler Laws, Acceleration Due to Gravity, Variation in G 50 mins
  29. Gravitational Potential Energy; Gravitational Potential - Spherical Shell, Solid Sphere, Point Mass and Uniform Ring 55 mins
  30. Gravitation Field: Relation and Calculation 55 mins
  31. Motion of Satellite: Escape Velocity 42 mins
  32. Gravitation: Solved Numericals 43 mins
  33. Thermal Equilibrium: Zeroth Law 34 mins
  34. Concept of Temperature: Scale and Conversion 37 mins
  35. Heat, Work and Internal Energy 58 mins
  36. The First Law of Thermodynamics 51 mins
  37. Second Law of Thermodynamics 21 mins
  38. Thermodynamics Basic Numericals 25 mins
  39. Kinetic Theory of Gases: Assumptions and Concept of Pressure 40 mins
  40. Kinetic Interpretation of Temperature 17 mins
  41. RMS of Gas Molecule and Degree of Freedom 27 mins
  42. Law of Equipartition of Energy and Application to Specific Heat of Gases 18 mins
  43. Mean Free Path: Assumption, Expression, Problems 23 mins
  44. Avogadro՚s Number: Importance and Problems 14 mins
  45. Kinetic Theory of Gases: Problems and Numericals 21 mins
  46. Wave Motion, Transverse and Longitudinal Waves 44 mins
  47. Speed of Travelling Waves 33 mins
  48. Displacement Relation for Progressive Waves 41 mins
  49. Principle of Superposition and Reflection of Waves 58 mins
  50. Standing Waves in String: Conditions, Treatment and Laws 53 mins
  51. Standing Waves in Organ Pipe: Approach and Numericals 56 mins
  52. Beats: Formation, Analytical Treatment, Applications and Numericals 43 mins
  53. Waves: Basic Problems and Numericals 20 mins
  54. Simple Harmonic Motion (SHM): Equilibrium Position, Restoring Force, Equations of Displacement, Velocity, Acceleration in SHM (Spring-Mass System), Meaning of Angular Velocity, Time Period, Frequency, Phase, Phase Constant (Role in Initial Conditions) And Amplitude. 42 mins
  55. Simple Harmonic Motion (SHM): Problems on Equations of Displacement, Velocity, Acceleration, Time Period, Frequency, Phase, Phase Constant (Role in Initial Conditions) And Amplitude. 21 mins
  56. Simple Harmonic Motion (SHM): Energy Changes in SHM (Spring Mass System), Equations for Kinetic Energy, Potential Energy and Total Energy. 21 mins
  57. Relation between SHM and Rotational Motion: Finding Equations of Displacement, Velocity & Acceleration 22 mins
  58. Generalizing the SHM: Simple Pendulum, Equation of Motion of Simple Pendulum 19 mins
  59. Generalizing the SHM: Compound/Physical Pendulum, Torsion Pendulum 20 mins
  60. SHM: Damped, Forced Oscillations, Phase Relations & Resonance 28 mins
  61. Simple Harmonic Motion: Important Problems and Numericals 15 mins
  62. Electric Charges and Coulomb՚s Law 1 hrs : 7 mins
  63. Forces Due to Multiple Charges 46 mins
  64. Electric Field Due to Charges 1 hrs : 5 mins
  65. Torque and Electric Field Due to Dipole 43 mins
  66. Electric Flux and Gauss՚s Law 59 mins
  67. Application of Gauss՚s Law 1 hrs : 12 mins
  68. Electric Potential and Dipole 42 mins
  69. Electrostatic Potential Energy and Equipotential Surfaces 35 mins
  70. Conductor and Insulator: Dielectric 58 mins
  71. Combination of Capacitor and Energy in Capacitor 1 hrs : 0 mins
  72. Capacitance of Capacitor with and Without Dielectric 53 mins
  73. Electrostatics: Problems and Numericals 19 mins
  74. Current, Drift Velocity and Mobility 53 mins
  75. Ohm՚s Law and Electrical Resistance; Electromotive Force 49 mins
  76. VI Characteristics: Superconductivity, Meissener Effect 43 mins
  77. Electrical Energy and Power; Power Rating; Joule՚s Law 37 mins
  78. Series and Parallel Combination of Resistors 31 mins
  79. Internal Resistance and EMF of Cell 1 hrs : 9 mins
  80. Kirchhoff՚s Law and Its Application 40 mins
  81. Wheatstone Bridge and Meter Bridge 40 mins
  82. Current Electricity: Important Questions 17 mins
  83. Biot Savart Law 52 mins
  84. Application of Biot-Savart Law Due to Circular Coil 1 hrs : 8 mins
  85. Ampere՚s Law and Its Application 57 mins
  86. Force on Moving Charge in Uniform Magnetic and Electric Field 52 mins
  87. Force on A Current Carrying Conductor and Parallel Conductor 44 mins
  88. Torque Experienced by Current Loop 36 mins
  89. Moving Coil Galvanometer 37 mins
  90. Magnetic Dipole and Dipole Moment 31 mins
  91. Bar Magnet as Solenoid 41 mins
  92. Magnetic Field Due to Magnetic Dipole 48 mins
  93. Para-, Dia-, Ferromagnetic Substances 1 hrs : 5 mins
  94. Magnetic Effect of Current and Magnetism: Problems 41 mins
  95. Faraday՚s Law: Magnetic Flux and Field 1 hrs : 3 mins
  96. Lenz՚s Law, EMF 56 mins
  97. Self and Mutual Inductance 1 hrs : 19 mins
  98. Peak and RMS Value of AC 43 mins
  99. Reactance and Impedance 59 mins
  100. L. C. R. Series Circuit and Resonance 36 mins
  101. Power of A. C. Circuit and Watt Less Current 26 mins
  102. AC Generator and Transformer 37 mins
  103. Electromagnetic Induction and Alternating Current: Problems 12 mins
  104. Displacement Current 41 mins
  105. Electromagnetic Waves and Their Characteristics: Maxwell Equation, Intensity, Momentum, Pressure, Energy 56 mins
  106. Transverse Nature of EM Waves 32 mins
  107. EM Waves Spectrum and Applications 36 mins
  108. Electromagnetic Waves: Problems and Numericals 20 mins
  109. Reflection of Light: Mirror and Image Formation 1 hrs : 2 mins
  110. Spherical Mirror and Mirror Formula 1 hrs : 22 mins
  111. Refraction of Light at Plane Surface 1 hrs : 7 mins
  112. Refraction through Spherical Surface 31 mins
  113. Thin Lens Formula and Lens Makers Formula 1 hrs : 1 mins
  114. Total Internal Reflection and Applications 27 mins
  115. Power and Combination of Lens 20 mins
  116. Refraction through Prism 1 hrs : 1 mins
  117. Microscope and Their Magnifying Power 57 mins
  118. Ray Optics: Numericals 23 mins
  119. Telescope and Its Magnification 42 mins
  120. Wavefront and Huygens Principle 47 mins
  121. Laws of Reflection and Refraction: Wave Theory 40 mins
  122. Interference of Light and Coherent Sources 32 mins
  123. Young Double Slit Experiment (YDSE) And Fringe Width 52 mins
  124. Diffraction Due to Single Slit and Central Maximum 45 mins
  125. Polarization and Polarized Light 59 mins
  126. Wave Optics: Numericals 18 mins
  127. Dual Nature of Radiation and Photoelectric Effect 1 hrs : 9 mins
  128. Einstein՚s Photoelectric Equation: Particle Nature and Planck՚s Constant 45 mins
  129. Matter Waves- De-Broglie Relation 32 mins
  130. Hertz and Lenard Observation 26 mins
  131. Dual Nature of Matter and Radiation: Problems and Numericals 27 mins
  132. Atom Model, Alpha Particle Scattering and Trajectory, Electron Orbits 25 mins
  133. Bohr Model of Hydrogen Atom 48 mins
  134. Atomic Number and Atomic Mass, Isotope, Isotone, Mass & Size of Nucleus 31 mins
  135. Mass Energy; Nuclear Binding Energy and Nuclear Force 35 mins
  136. Radioactivity: Types, Decay Rate & Half Life 27 mins
  137. Nuclear Models: Liquid Drop Model and Shell Model 21 mins
  138. Decay Process: Nuclear Fusion and Fission 23 mins
  139. Atoms and Nuclei: Practice Questions 20 mins
  140. Semiconductors: PN Junction; Forward and Reverse Bias 40 mins
  141. Rectifiers: Half and Full Wave; Characteristics 43 mins
  142. IV Characteristics: Photodiodes, LED, Solar Cells 46 mins
  143. Zener Diode: Voltage Regulator; Avalanche Breakdown & Problems 44 mins
  144. Logic Gates: OR, AND, NOT, NAND, NOR 32 mins
  145. Electronic Devices: Past Paper Solutions 29 mins
  146. Vernier Calliper: Parts, Zero Error, Least Count, Demonstration, Application and Problems 50 mins
  147. Screw Gauge: Principle, Parts, Error, Demonstration & Precautions 36 mins
  148. Simple Pendulum: Dissipation, Principle, Theory, Stimulation, Observation, Problems 34 mins
  149. Principle of Moments: Torque, Equilibrium, Procedure, Experiment 29 mins
  150. Young՚s Modulus: Searle՚s Apparatus, Principle, Experiment, Graph 35 mins
  151. Surface Tension: Theory, Procedure and Observations 36 mins
  152. Viscosity of Liquid: Theory and Procedure; Experiment 47 mins
  153. Speed of Sound: Experiment and Procedure 35 mins
  154. Specific Heat Capacity: Experiment and Observations 45 mins
  155. Meter Bridge: Circuit Diagram, Principle, Procedure and Experiment 41 mins
  156. Resistance of Wire: Experiment and Observations 24 mins
  157. Galvanometer: Resistance, Procedure, Experiment, Observation 36 mins
  158. Focal Length: Concave and Convex - Mirror and Lens 52 mins
  159. Refraction through Prism: Experiment 42 mins
  160. Refractive Index 29 mins
  161. PN Junction Diode 34 mins
  162. Zener Diode: Working, Specifications and Circuit Diagram 28 mins
  163. Identification of Diodes 51 mins
🏠MHT-CET (Maharashtra Common Entrance Test)Physics (Plan)