a. Compute the magnitude of the magnetic field at the centre C due to the current passing through the wire. b. Compute the magnitude of the magnetic field at the centre C due to the motion of the electron. c. In unit vector notation, find the magnetic force on the electron due to the current passing through the straight wire.
a. Compute the magnitude of the magnetic field at the centre C due to the current passing through the wire. b. Compute the magnitude of the magnetic field at the centre C due to the motion of the electron. c. In unit vector notation, find the magnetic force on the electron due to the current passing through the straight wire.
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a. Compute the magnitude of the magnetic field at the centre C due to the current passing through the wire.
b. Compute the magnitude of the magnetic field at the centre C due to the motion of the electron.
c. In unit vector notation, find the magnetic force on the electron due to the current passing through the straight wire.
Transcribed Image Text:AY
R/2
d
A single current-carrying circular loop of radius R = 5.7 cm is placed next to a long straight wire as shown in Figure. A current ij = -8.8 A is passing
through the wire towards right. At a certain moment an electron is moving at a velocity i = 590.0 jm/s toward the centre of the circular wire. At the
instant shown in figure, the electron's distance from the wire is d = 6.9 cm.
The z axis points out of the page in the coordinate system shown in the figure which is represented by the circle with a dot inside.
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