R R/2↑: d A single current-carrying circular loop of radius R=6.4 cm is placed next to a long straight wire as shown in Figure. A current i1 = -7.6 A is passing through the wire towards right. At a certain moment an electron is moving at a velocity v = -570.0 jm/s toward the centre of the circular wire. At the instant shown in figure, the electron's distance from the wire is d = 8.5 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. a)Compute the magnitude of the magnetic field at the centrec due to the current passing through the straight wire. Magnitude of magnetic field at point c
R R/2↑: d A single current-carrying circular loop of radius R=6.4 cm is placed next to a long straight wire as shown in Figure. A current i1 = -7.6 A is passing through the wire towards right. At a certain moment an electron is moving at a velocity v = -570.0 jm/s toward the centre of the circular wire. At the instant shown in figure, the electron's distance from the wire is d = 8.5 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. a)Compute the magnitude of the magnetic field at the centrec due to the current passing through the straight wire. Magnitude of magnetic field at point c
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![R
R|2 1:
d
A single current-carrying circular loop of radius R=6.4 cm is placed next to a long straight wire as shown in Figure. A current i1 = -7.6 A is
passing through the wire towards right. At a certain moment an electron is moving at a velocity v = -570.0 j m/s toward the centre of the circular
wire. At the instant shown in figure, the electron's distance from the wire is d = 8.5 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.
a)Compute the magnitude of the magnetic field at the centre c due to the current passing through the straight wire.
Magnitude of magnetic field at point c](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fd7266660-79aa-4d28-9ec6-518064a4e7b2%2Fd46fa750-b8b2-4731-b3d6-53b4ea10a96a%2F1nm0kql_processed.png&w=3840&q=75)
Transcribed Image Text:R
R|2 1:
d
A single current-carrying circular loop of radius R=6.4 cm is placed next to a long straight wire as shown in Figure. A current i1 = -7.6 A is
passing through the wire towards right. At a certain moment an electron is moving at a velocity v = -570.0 j m/s toward the centre of the circular
wire. At the instant shown in figure, the electron's distance from the wire is d = 8.5 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.
a)Compute the magnitude of the magnetic field at the centre c due to the current passing through the straight wire.
Magnitude of magnetic field at point c
![d)Calculate the magnitude and direction of the current to the circular wire to produce zero magnetic field at its centre c. Consider counter-clockwise
circulation of current as positive.
Value of the current (with sign)
Give your answer to at least three significance digits.
A](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fd7266660-79aa-4d28-9ec6-518064a4e7b2%2Fd46fa750-b8b2-4731-b3d6-53b4ea10a96a%2Fivqmwgc_processed.png&w=3840&q=75)
Transcribed Image Text:d)Calculate the magnitude and direction of the current to the circular wire to produce zero magnetic field at its centre c. Consider counter-clockwise
circulation of current as positive.
Value of the current (with sign)
Give your answer to at least three significance digits.
A
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