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Monday, 23 September 2013

Difference between Ammeter and Voltmeter


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Voltmeter


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Ammeter

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Shunt


A shunt is a device which allows electric current to pass around another point in the circuit by creating a low resistance path.
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Moving Coil Galvanometer


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Torque on a Current Carrying Coil in a Magnetic Field


 


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Force Between Two Parallel Linear Conductors Carrying Current

 
 
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Blog Archive

  • ▼  2013 (130)
    • ▼  September (130)
      • Difference between Ammeter and Voltmeter
      • Voltmeter
      • Ammeter
      • Shunt
      • Moving Coil Galvanometer
      • Torque on a Current Carrying Coil in a Magnetic Field
      • Force Between Two Parallel Linear Conductors Carry...
      • Force on a Current Carrying Conductor Placed in a ...
      • Cyclotron
      • Fleming’s Left Hand Rule
      • Lorentz Force
      • Toroid
      • The Solenoid
      • Ampere's Circuital Law
      • Magnetic Field at a point on the axis of a circula...
      • Magnetic Field Due to a Straight Wire Carrying Cur...
      • Differences Between Biot Savart’s Law And Coulomb’...
      • Similarity Between Biot Savart’s Law And Coulomb’s...
      • Biot-Savart's Law
      • Magnetic Field
      • Ampere’s Swimming Rule
      • Oersted's Experiment
      • Introduction - Magnetic Field
      • Introduction - Magnetic Field
      • Maximum Power Transfer Theorem
      • Maximum Power Transfer Theorem
      • Maximum Power Transfer Theorem
      • Some Effect of Heating Effect of Currents
      • Electric Energy
      • Electric Power
      • Heat Produced by electric Current
      • Heating effects of Current: Joule's Effect
      • Difference Between Potentiometer and Voltmeter
      • Sensitiveness of Potentiometer
      • Determnation of Internal Resisitance of a cell by ...
      • Comparison of EMF's of Two Cells using potentiometer
      • Determination of Potential Difference using Potent...
      • Potentiometer and its Principle of Working
      • Slide Wire Bridge or Meter Bridge
      • Wheatstone Bridge Principle
      • Kirchhofff's Rules
      • Grouping of two cells in series and parallel
      • Distinction Between EMF and Potential Difference
      • EMF, Internal Resistance and Terminal Potential Di...
      • Combination of Resistors – Parallel
      • Combination of Resistors – Series
      • Color Code for Carbon Resistor
      • Superconductivity
      • Non-Ohmic Devices or Limitations of Ohm's Law
      • Variation of Electrical Resistivity with Temperature
      • Effect of Temperature on Resistance
      • Resistivity of Various Materials
      • Ohm's Law
      • Ohm's Law
      • Mobility
      • Drift Velocity
      • Electric Current in Conductors
      • Electric Current
      • Electric Current
      • Electromotive Force
      • Current Carriers
      • Current Electricity
      • Van De Graaff Generator
      • Action of Sharp Points (Corona Discharge)
      • Lightning Conductor
      • Parallel Plate Capacitor with a Dielectric Slab
      • Dielectric Strength
      • Non-Polar and Polar Dielectrics
      • Loss of Energy on Sharing Charges
      • Energy Density of a Parallel Plate Capacitor
      • Total Energy Stored in a Combination of Capacitor
      • Energy Stored in a Capacitor
      • Grouping of Capacitors
      • Spherical or Cylindrical conductors
      • Relative Permittivity or Dielectric Constant
      • Parallel Plate Capacitor
      • Principle of Capacitance
      • Capacity of an Isolated Spherical Conductor
      • Electrical Capacitance
      • Electrostatic Shielding
      • Electrostatics of Conductors
      • Electrostatics of Conductors
      • Electric Field Intensity due to two Sheet of Charge
      • Electric Field Intensity due to Spherical Shell
      • Electric Field Intensity due to Sheet of Charge
      • Applications of Gauss’s Theorem
      • Deduction of Coulomb’s Law from Gauss’s Theorem
      • Gauss’s Theorem and its Proof
      • Electric Flux
      • Area Vector
      • Potential Energy In An External Field
      • Potential Energy In An External Field
      • Potential Energy of A System of Charges
      • Relation Between Field And Potential
      • Equipotential Surfaces
      • Potential Due To An Electric Dipole
      • Potential Due To A System Of Charges
      • Potential Due To A Point Charge
      • Electrostatic Potential
      • Electric Potential Energy

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