A conducting bar with mass m and length L slides over horizontal rails that are connected to a voltage source. The voltage source maintains

Question

A conducting bar with mass m and length L slides over horizontal rails that are connected to a voltage source. The voltage source maintains a constant current I in the rails and bar, and a constant, uniform, vertical magnetic field B fills the region between the rails . Find the magnitude and direction of the net force on the conducting bar. Ignore friction, air resistance and electrical resistance :
A. v2m / ILB to yhe right
B. 3v2m /2 ILB to yhe left
C. 5v2m/ 2ILB to the right
D. v2m / 2ILB to the left

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4 years 2021-09-01T00:41:04+00:00 1 Answers 15 views 0

Answers ( )

  1. kimchi2
    0
    2021-09-01T00:42:37+00:00
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    Answer:

    F = ILB

    Explanation:

    To find the net force on the conducting bar you take into account the following expression:

    \vec{F}=I( \vec{L}X \vec{B})

    I: current in the conducting bar

    L: length of the bar

    B: magnitude of the magnetic field

    In this case the direction of the magnetic field and the motion of the bar are perpendicular between them. The direction of the bar is + i, and the magnetic field poits upward + k. The cross product of these vector give us the direction of the net force:

    +i X +k = +j

    The direction of the force is to the right and its magnitude is F = ILB

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Giải phương trình 1 ẩn: x + 2 - 2(x + 1) = -x . Hỏi x = ? ( )