STATEMENT-1: The magnetic flux through a...

STATEMENT-1: The magnetic flux through a loop of conducting wire of a fixed resistance changes by `Deltaphi_(B)` in a ime `Deltat`. Then `Deltaphi_(B)` is propotional to the current through the loop.
STATEMENT-2: `I=-(Deltaphi_(B))/R`

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Asseration: The magnetic flux through a loop of conducting wire of a fixed resistance changes by Deltaphi_(B) in a time Deltat . Then Deltaphi_(B) is proportional to the current through the loop. Reason: I=-(Deltaphi_(B))/(R ))

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STATEMENT-1: The magnetic flux through a loop of conducting wire of a fixed resistance changes by `Deltaphi_(B)` in a ime `Deltat`. Then `Deltaphi_(B)` is propotional to the current through the loop. STATEMENT-2: `I=-(Deltaphi_(B))/R`

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STATEMENT-1: The magnetic flux through a loop of conducting wire of a fixed resistance changes by `Deltaphi_(B)` in a ime `Deltat`. Then `Deltaphi_(B)` is propotional to the current through the loop.
STATEMENT-2: `I=-(Deltaphi_(B))/R`