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1. www.ucd.ie › t4cms › 2labman_current12EXPERIMENT 12 Current Balance - University College Dublin

   www.ucd.ie › t4cms › 2labman_current12

   EXPERIMENT 12 Current Balance Introduction The current balance is used to measure the force of repulsion between identical, oppositely di-rected, currents in parallel conductors. In this experiment you will: 1) Determine how the magnetic force of one current-carrying conductor on a parallel current-

2. www.phy.olemiss.edu › lab › genlabExperiment 19: The Current Balance

   www.phy.olemiss.edu › lab › genlab

   Advance Reading. Text: Magnetic force, magnetic field. Objective. The objective of this experiment is to measure the ef-fects of a magnetic field on a current carrying conduc-tor. Theory. A magnetic field exerts a force, ~FB, on a moving charge. The magnitude of ~FB is: FB = qvB sin (19.1)

3. www.physics.utoronto.ca › ~phy224_324 › LabManualsThe Current Balance - University of Toronto

   www.physics.utoronto.ca › ~phy224_324 › LabManuals

   In this experiment you will use a current balance in which the upper conductor is free to pivot on knife edges. The upper conductor is balanced so that the wires are a small distance apart.

4. www.phy.olemiss.edu › lab › genlabExperiment 18: The Current Balance - University of Mississippi

   www.phy.olemiss.edu › lab › genlab

   Advance Reading. Text: Magnetic force, magnetic field. Objective. The objective of this experiment is to measure the ef-fects of a magnetic field on a current carrying conduc-tor. Theory. A magnetic field exerts a force, FB, on a moving charge. The magnitude of FB is: FB = qvB sin θ (18.1)

5. spiff.rit.edu › classes › phys273The Current Balance - Rochester Institute of Technology

   spiff.rit.edu › classes › phys273

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   2 Μαΐ 1999 · The Current Balance. PURPOSE. To measure the magnetic force between two current-carrying conductors, and calculate the magnetic permability of free space. WHAT'S THE POINT? To see magnetic fields producing a force on a conductor which carries a current. BACKGROUND READING: Cutnell and Johnson, Chapter 21, Sections 5 and 10. INTRODUCTION AND THEORY:

6. www.phywe.com › experiments-sets › university-experimentsCurrent balance / force acting on a current-carrying conductor...

   www.phywe.com › experiments-sets › university-experiments

   The force acting on a current-carrying conductor loop in a uniform magnetic field (Lorentz force) is measured with a balance. Conductor loops of various sizes are suspended in turn from the balance, and the Lorentz force is determined as a function of the current and magnetic induction.

7. www.kbcc.cuny.edu › physci › documentsActivity P48: Current Balance - Kingsborough Community College...

   www.kbcc.cuny.edu › physci › documents

   Current Balance. Theory: A current-carrying wire in a magnetic field experiences a force that is usually referred to as a magnetic force. The magnitude and direction of this force depend on four variables: the magnitude of the current (I); the length of the wire (L); the strength of the magnetic field (B); and the angle between the field and ...