1.) Should the speed at which a magnet is moved through a coil of wire affect the measured peak voltage across the coil? If so, how? 2)If a magnet is moved through a coil of wire South pole first instead of North pole first, how should the measured voltage response be affected? 3) Should the number of individual coils in the wire have an effect on the measured emf? If so, how? 4) Below draw a graph of the expected magnetic flux through a point in the coil as a function of time as the magnet passes through the coil.
1.) Should the speed at which a magnet is moved through a coil of wire affect the measured peak voltage across the coil? If so, how? 2)If a magnet is moved through a coil of wire South pole first instead of North pole first, how should the measured voltage response be affected? 3) Should the number of individual coils in the wire have an effect on the measured emf? If so, how? 4) Below draw a graph of the expected magnetic flux through a point in the coil as a function of time as the magnet passes through the coil.
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1.) Should the speed at which a magnet is moved through a coil of wire affect the measured peak voltage across the coil? If so, how?
2)If a magnet is moved through a coil of wire South pole first instead of North pole first, how should the measured voltage response be affected?
3) Should the number of individual coils in the wire have an effect on the measured emf? If so, how?
4) Below draw a graph of the expected magnetic flux through a point in the coil as a function of time as the magnet passes through the coil.
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Step 1: 1) Explanation of the effect of speed of magnet on peak voltage:
VIEWStep 2: 2) Explanation of the effect of orientation of pole of magnet on the measured voltage:
VIEWStep 3: 3) Explanation of the effect of number of coils in the wire on the measured emf:
VIEWStep 4: 4) Draw the graph for magnetic flux as a function of time as a magnet passes through the coil:
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