• ATWOOD APPARATUS- KPHM-04

  Experiment:
  Determination of acceleration due to gravity
  Verify Newton’s II law of motion
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• BAR / COMPOUND PENDULUM-KPHM-05

  Experiment:
  Determination of acceleration due to gravity
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• CONSERVATION OF ENERGY-KPHM-06

  Experiment:
  Verification of law of conservation of energy
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• COUPLED OSCILLATOR-KPHM-07

  Experiment:
  Determine the frequency of energy transfer and beat frequency
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• FREE FALL APPARATUS-KPHM-08

  Experiment:
  Determination of acceleration due to gravity
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• GALTON BOARD (MONTE CARLO) EXPERIMENT-KPHM-09

  Experiment:
  Verification of central limit theorem (CELT) & Normal (Gaussian) distribution
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• KATER’s PENDULUM-KPHM-10

  Experiment:
  Determination of acceleration due to gravity
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• LAMI’s THEOREM (GRAVESAND’s APPARATUS)-KPHM-11

  Experiment:
  Verification of Law of parallelogram force, converse of triangular forces, Lami’s theorem
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• MAXWELL’s NEEDLE APPARATUS-KPHM-12

  Experiment:
  Determination of acceleration due to gravity
  Verify Newton’s II law of motion
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• MOMENT OF INERTIA BY FLY WHEEL-KPHM-13

  Experiment:
  Determination of the moment of inertia & mass of the fly wheel
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• RIGIDITY MODULUS BY STATIC TORSION-KPHM-14

  Experiment:
  Determination of rigidity modulus of the material in the form of rods
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• SEARLE’s DOUBLE BAR-KPHM-15

  Experiment:
  To determine the elastic constant of Iron
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• SIMPLE PENDULUM-KPHM-16

  Experiment:
  Determination of acceleration due to gravity
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• SIMULATION OF RADIO ACTIVE DELAY-KPHM-17

  Experiment:
  Simulation of radioactive decay (exponential decay) using rolling of dice
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• SPRING CONSTANT (HOOKE’s LAW)-KPHM-18

  Experiment:
  Verification of Hook’s law
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• SPRING CONSTANT BY STATIC & DYNAMIC METHOD-KPHM-19

  Experiment:
  Determination of Spring constant by static & dynamic methods
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• SURFACE TENSION BY CAPILLARY RISE METHOD-KPHM-20

  Experiment:
  Determination of surface tension of liquids
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• SURFACE TENSION BY JEAGER’s METHOD-KPHM-21

  Modern Physics- Mechanics
  Experiment:
  Determination of surface tension of liquids with variation of concentration of salt solution
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• TORSIONAL PENDULUM - RIGIDITY MODULUS OF WIRE-KPHM-22

  Experiment:
  Determination of moment of Inertia of the given object
  Determination of rigidity modulus of the given wire
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• VISCOSITY BY POISEUILLE’s METHOD-KPHM-23

  Experiment:
  Determination of co-efficient of viscosity by pressure variation
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• VISCOSITY BY STOKE’s METHOD - KPHM-24

  Experiment:
  Determination of co-efficient of viscosity
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• YOUNG’s MODULUS BY KOENIG’s METHOD- KPHM-25

  Experiment:
  Determination of Young’s modulus of square cross sectional metal rod
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• YOUNG’s MODULUS BY BENDING -KPHM-26

  Experiment:
  Determination of Young’s modulus of rectangular cross section by uniform bending
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• YOUNG’s MODULUS BY CANTILEVER METHOD - KPHM-27

  Experiment:
  Determination of Young’s modulus of rectangular cross section by cantilever method
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• YOUNG’s MODULUS BY STRAIN GAUGE -KPHM-28

  Experiment:
  Determination of Young’s modulus of rectangular cross section by cantilever method
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• YOUNG’s MODULUS BY SEARLE’s METHOD -KPHM-29

  Experiment:
  Determination of Young’s modulus of wire by stretching
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