Find the electric field at the origin of the x,y-plane for charge distributions (a) and (b), see the figures shown below. The field is produced (a) by a thin half-circle with a radius of 15 cm and the linear charge density K - 10 pc/cm and (b) by a thin quarter-circle with the same radius and the linear charge density K = -10 pc/cm. K>0 (a) For the charge distribution (a): The x-component of Ea. Ea,x= The y-component of Ea, Ea.y= For the charge distribution (b): The x-component of E₁. Eb,x- The y-component of Eb, Eb.y = W Units N/C Units N/C Units N/C Units N/C K<0 0 (b)
Find the electric field at the origin of the x,y-plane for charge distributions (a) and (b), see the figures shown below. The field is produced (a) by a thin half-circle with a radius of 15 cm and the linear charge density K - 10 pc/cm and (b) by a thin quarter-circle with the same radius and the linear charge density K = -10 pc/cm. K>0 (a) For the charge distribution (a): The x-component of Ea. Ea,x= The y-component of Ea, Ea.y= For the charge distribution (b): The x-component of E₁. Eb,x- The y-component of Eb, Eb.y = W Units N/C Units N/C Units N/C Units N/C K<0 0 (b)
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Transcribed Image Text:Find the electric field at the origin of the x,y-plane for charge distributions (a) and (b), see the figures
shown below. The field is produced (a) by a thin half-circle with a radius of 15 cm and the linear charge
density K-10 pc/cm and (b) by a thin quarter-circle with the same radius and the linear charge density
K = -10 pc/cm.
K>0
(a)
For the charge distribution (a):
The x-component of Ea. Ea,x=
The y-component of Ea, Ea,y=
For the charge distribution (b):
The x-component of Eb, Eb,x-
The y-component of Eb, Eb,y =
Units N/C
Units N/C
Units N/C
Units N/C
K<0
(b)
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