This book is designed to meet the course on Engineering Physics Practical of engineering curriculum for the First Year engineering students. Laboratory work is an important part of the process of learning physics where students apply their knowledge practically. As no textbook available on the market on Engineering Physics dealt with the experimental part in detail and so in the classroom lecture, the authors bring out this book.
Additional Info
  • Publisher: Laxmi Publications
  • Language: English
  • ISBN : 978-93-80856-83-4
  • Chapter 1

    Vernier Calipers Price 2.99  |  2.99 Rewards Points

    To determine the length of a given object with a vernier calipers.
  • Chapter 2

    Screw Gauge Price 2.99  |  2.99 Rewards Points

    To determine the diameter of wire and thickness of glass plate using screw gauge
  • Chapter 3

    Spherometer Price 2.99  |  2.99 Rewards Points

    To determine the thickness of glass plate and radius of curvature of a spherical surface with spherometer
  • Chapter 4

    Coupled Oscillator Price 2.99  |  2.99 Rewards Points

    To determine the coupling constant of a coupled oscillator performing parallel and anti parallel oscillations.
  • Chapter 5

    Volume Resonator Price 2.99  |  2.99 Rewards Points

    To verify the relation between the volume of the air cavity and the frequency of the note that produces in it and hence to find the velocity of sound in air at room temperature.
  • Chapter 6

    Sonometer: Verification of Laws of Stretched Strings Price 2.99  |  2.99 Rewards Points

    To verify the Laws of transverse vibrations of stretched strings by using sonometer
  • Chapter 7

    Frequency of AC Supply Price 2.99  |  2.99 Rewards Points

    To determine the Frequency of the AC supply.
  • Chapter 8

    A.C. Sonometer–Electromagnet Method Price 2.99  |  2.99 Rewards Points

    To determine the frequency of given A.C. Supply by using A.C. sonometer
  • Chapter 9

    Newton’s Rings Price 2.99  |  2.99 Rewards Points

    To determine. (a) the wavelength of sodium light and / or (b) the radius of curvature of the surface of the Plano convex lens, by forming Newton’s rings.
  • Chapter 10

    Parallel Fringes Price 2.99  |  2.99 Rewards Points

    To determine the diameter of thin wire by interference method.
  • Chapter 11

    Diffraction Grating Price 2.99  |  2.99 Rewards Points

    To determine the wavelength of a given light radiation using diffraction grating with normal incidence method and minimum deviation method
  • Chapter 12

    Dispersion of Light Price 2.99  |  2.99 Rewards Points

    To determine the dispersive power of the material of the given prism.
  • Chapter 13

    Torsional Pendulum Price 2.99  |  2.99 Rewards Points

    To determine the modulus of rigidity (η) of a wire of given material using a torsional pendulum.
  • Chapter 14

    Spectrometer—Determination of Cauchy’s Constants Price 2.99  |  2.99 Rewards Points

    To determine Cauchy’s constant in the Cauchy’s relation using a Spectrometer
  • Chapter 15

    Lasers—Diffraction due to a Single Slit Price 2.99  |  2.99 Rewards Points

    To determine the wavelength of given laser source by using diffractions pattern due to single slit.
  • Chapter 16

    Lasers—Diffraction due to a Double Slit Price 2.99  |  2.99 Rewards Points

    To determine the wavelength of given laser source by using diffraction pattern due to double slit.
  • Chapter 17

    Numerical Aperture of Optical Fiber Price 2.99  |  2.99 Rewards Points

    To determine the numerical aperture (NA) of the given optical fiber.
  • Chapter 18

    Diffraction due to Single Slit (Sodium Light) Price 2.99  |  2.99 Rewards Points

    To study the diffraction due to single slit using sodium light as a source.
  • Chapter 19

    Diffraction due to Double Slit (Sodium Light) Price 2.99  |  2.99 Rewards Points

    To study the diffraction due to double slit using sodium light as source.
  • Chapter 20

    Study of Losses in Optical Fibers Price 2.99  |  2.99 Rewards Points

    To study various types of losses that occur in optical fibers due to bending of fiber and connectors between the fibers.
  • Chapter 21

    Meldes Experiment Price 2.99  |  2.99 Rewards Points

    To determine the frequency of the vibrator or tuning fork using Melde’s arrangement.
  • Chapter 22

    Magnetic Field Along the Axis of a Current Carrying Circular Coil — Stewart and Gee’s Method Price 2.99  |  2.99 Rewards Points

    To determine the magnetic induction at various points on the axis of a current carrying circular coil, using Stewart and Gee’s type Tangent Galvanometer
  • Chapter 23

    Energy Gap of Material of a pn Junction Price 2.99  |  2.99 Rewards Points

    To determine the reverse saturation current of a diode at various temperatures and hence to deduce the Energy gap of the diode.
  • Chapter 24

    Study of Time Constant for RC Circuit Price 2.99  |  2.99 Rewards Points

    To determine the time constant of the given RC circuit during charging and discharging phases.
  • Chapter 25

    The Series RLC Circuit Price 2.99  |  2.99 Rewards Points

    To draw the characteristics of RLC series resonant circuit and determine the bandwidth and half power frequencies at resonance.
  • Chapter 26

    The Parallel RLC Circuit Price 2.99  |  2.99 Rewards Points

    To draw the characteristics of LCR parallel resonant circuit and determine the bandwidth and half power frequencies at resonance.

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