The figure shows a cylindrical conductor with inner radius a = 2.2 cm and outer radius b= 3.7 cm. The current flowing in the cylinder is perpendicular to the figure and directed outward. The magnitude of the current density is given by J = cr² where c = 2.9 x 106 A/m² (r in meters). What is the magnitude of the magnetic field at point P (at a radial distance from the center midway between a and b (i.e., at r = (a+b)/2)? Give your answer in μT. B = мт What is the magnitude of the magnetic field at a radial distance r = 5.0 cm from the center of the conductor? |B| = | MT P
The figure shows a cylindrical conductor with inner radius a = 2.2 cm and outer radius b= 3.7 cm. The current flowing in the cylinder is perpendicular to the figure and directed outward. The magnitude of the current density is given by J = cr² where c = 2.9 x 106 A/m² (r in meters). What is the magnitude of the magnetic field at point P (at a radial distance from the center midway between a and b (i.e., at r = (a+b)/2)? Give your answer in μT. B = мт What is the magnitude of the magnetic field at a radial distance r = 5.0 cm from the center of the conductor? |B| = | MT P
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Transcribed Image Text:The figure shows a cylindrical conductor with inner
radius a = 2.2 cm and outer radius b= 3.7 cm. The
current flowing in the cylinder is perpendicular to the
figure and directed outward. The magnitude of the
current density is given by J = cr² where c = 2.9 x
106 A/m² (r in meters). What is the magnitude of the
magnetic field at point P (at a radial distance from the
center midway between a and b (i.e., at r = (a+b)/2)?
Give your answer in μT.
B =
мт
What is the magnitude of the magnetic field at a radial
distance r = 5.0 cm from the center of the conductor?
|B| = |
MT
P
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