Magnetic Flux
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The following quantities appear in the problem:
Länge \(\ell\) / Magnetische Flussdichte \(B\) / Magnetischer Fluss \(\varPhi\) / Fläche \(A\) / Anzahl \(N\) / Winkel \(\theta\) /
The following formulas must be used to solve the exercise:
\(\Phi = NBA\cdot \cos\theta \quad \) \(A = s^2 \quad \)
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Exercise:
A square loop of wire .cm on a side is in a .T magnetic field. Calcuate the maximum and minimum values of the magnetic flux that can pass through the loop.
Solution:
newqtylo.cm newqtyllon m newqtyB.T % Geg ell lo l B B % GesMaximum and minimum Magnetic FluxPhisiWb % The area of the square loop is: solqtyAell^ln**squaremeter A Af qtyl^ A The maximum/minimum value of the magnetic flux is: solqtyPmaxBell^Bn*AnWb solqtyPmin-Bell^-Bn*AnWb Phim BA costheta Bell^ costheta sscPhimaxmin BA pm pm Bell^ pm B A pm Pmax This is the case if B and A are parallel and po in the same direction i.e. theta. The magnetic flux takes its lowest value if B and A are parallel and po in opposite directions. Take care: The minimum is not zero i.e. A and B perpicular. Hence the minimum is Pmin. % sscPhimax Pmaxf PmaxII sscPhimin Pminf PminII
A square loop of wire .cm on a side is in a .T magnetic field. Calcuate the maximum and minimum values of the magnetic flux that can pass through the loop.
Solution:
newqtylo.cm newqtyllon m newqtyB.T % Geg ell lo l B B % GesMaximum and minimum Magnetic FluxPhisiWb % The area of the square loop is: solqtyAell^ln**squaremeter A Af qtyl^ A The maximum/minimum value of the magnetic flux is: solqtyPmaxBell^Bn*AnWb solqtyPmin-Bell^-Bn*AnWb Phim BA costheta Bell^ costheta sscPhimaxmin BA pm pm Bell^ pm B A pm Pmax This is the case if B and A are parallel and po in the same direction i.e. theta. The magnetic flux takes its lowest value if B and A are parallel and po in opposite directions. Take care: The minimum is not zero i.e. A and B perpicular. Hence the minimum is Pmin. % sscPhimax Pmaxf PmaxII sscPhimin Pminf PminII