A flat loop with a 0.6 m^2 area experiences a changing magnetic field, given by B(t) = Bo e^-t/5, where Bo = 3T/ The field remains at an angle of 30 degrees to the area of this loop:
A) Determine the induced EMF as a function of time.
B) At what time will the induced EMF be 1/4 of its initial
value?
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A flat loop with a 0.6 m^2 area experiences a changing magnetic
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A square loop of side a is located in a region of changing magnetic field. The direction of the magnetic field makes an angle of 6 degrees with the place of the loop and B(t) = b + ct in Tesla. Find the magnetic flux through the loop as a function of time (ignore the minus sign). a^2(b+ct)cos theta a^2ctcos theta a^ccostheta a(b+ct)cos theta abct)cos theta Find the induced emf in the copper loop for t > 0. a^2(b+ct)cos theta...
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A rectangular loop (area = 1.1 m2) turns in a uniform magnetic field, B = 2.6 T. When the angle between the field and the normal to the plane of the loop is pi/2 rad and increasing at 2.1 rad/s, what emf is induced in the loop?
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A square loop of side a is located in a region of changing magnetic field. The direction of the magnetic field makes an angle of 6 degrees with the place of the loop and B(t) = b + ct in Tesla. Find the magnetic flux through the loop as a function of time (ignore the minus sign). a^2(b+ct)cos theta a^2ctcos theta a^ccostheta a(b+ct)cos theta abct)cos theta Find the induced emf in the copper loop for t > 0. a^2(b+ct)cos theta...
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nt to p in the loop? (b) If the magnetic field r of 2.1 T, what is the magnitude of the ra verage emf has the 24. A uniform magnetic field is perpendi circular coil. The magnitude of the fiel in of basi rs, and o ummaie Section 22.4 Faraday's Law of Electromagnetic Induction 18. A magnetic field passes through a stationary wire loop, and its magnitude changes in time according to the graph in the drawing. The direction of...
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