Induced voltage of magnet of two like charges

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SUMMARY

The discussion focuses on comparing the induced voltage of magnets with different configurations: two like charges versus one magnet, and two opposite poles versus one magnet. The results indicate that the induced voltage for one magnet is consistently -0.313 V. When two like poles are attached, the induced voltage is 0.068 V, while two opposite poles yield -0.527 V. These findings demonstrate how magnet configuration affects induced voltage, confirming that like poles repel and opposite poles attract, influencing the overall voltage readings.

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  • Understanding of induced voltage and its measurement
  • Basic principles of magnetism, including pole interactions
  • Familiarity with voltage measurement techniques
  • Knowledge of electromagnetic theory
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  • Research the principles of electromagnetic induction
  • Study the effects of magnet configurations on induced voltage
  • Learn about voltage measurement tools and techniques
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Students in physics, educators teaching magnetism, and anyone interested in understanding the principles of induced voltage in magnetic systems.

acquaazman
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Homework Statement


1. compare the induced voltage of the attached magnet ( two like charges) with the induced voltage of one magnet only?

2.compare the induced voltage of attached magnet (opposite poles) with one with only one magnet


Homework Equations





The Attempt at a Solution


okay for the first q , my data shows that v(one magnet) = -0.313 v and v(attached magnet , two like poles)= 0.068v can u explain this to me?

as for the 2nd q , the v(one magnet) =-0.313 and v(attached magnet , two different poles) = -0.527v can u explain this to me too?
 
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acquaazman said:

Homework Statement


1. compare the induced voltage of the attached magnet ( two like charges) with the induced voltage of one magnet only?

2.compare the induced voltage of attached magnet (opposite poles) with one with only one magnet


Homework Equations





The Attempt at a Solution


okay for the first q , my data shows that v(one magnet) = -0.313 v and v(attached magnet , two like poles)= 0.068v can u explain this to me?

as for the 2nd q , the v(one magnet) =-0.313 and v(attached magnet , two different poles) = -0.527v can u explain this to me too?

Welcome to the PF.

Were there supposed to be attached figures with this showing the magnet geometries?
 

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