as shown in the figure. For sufficiently large v0 the loop eventually crosses the region. Let x be the location of the right edge of the loop. Let v(x)
Sahay Sir > Question Answers > as shown in the figure. For sufficiently large v0 the loop eventually crosses the region. Let x be the location of the right edge of the loop. Let v(x)
A rigid wire loop of square shape having side of length L and resistance R is moving along the x-axis with a constant velocity v0 in the plane of the paper. At t=0, the right edge of the loop enters a region of length 3L where there is a uniform magnetic field B0 into the plane of the paper, as shown in the figure. For sufficiently large v0 the loop eventually crosses the region. Let x be the location of the right edge of the loop. Let v(x), I(x) and F(x) represent the velocity of the loop, current in the loop, and force on the loop, respectively, as a function of x. Counter-clockwise current is taken as positive.
21
Oct
A rigid wire loop of square shape having side of length L and resistance R is moving along the x-axis with a constant velocity v0 in the plane of the paper. At t=0, the right edge of the loop enters a region of length 3L where there is a uniform magnetic field B0 into the [...]
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A rigid wire loop of square shape having side of length L and resistance R is moving along the x-axis with a constant velocity v0 in the plane of the paper. At t=0 ,
and force on the loop ,
as a function of x. Counter-clockwise current is taken as positive. ,
as shown in the figure. For sufficiently large v0 the loop eventually crosses the region. Let x be the location of the right edge of the loop. Let v(x) ,
current in the loop ,
I(x) and F(x) represent the velocity of the loop ,
respectively ,
the right edge of the loop enters a region of length 3L where there is a uniform magnetic field B0 into the plane of the paper ,