The electric field due to a very long straight and uniformly charged wire is given by the following expression: E = 0, where E is in N/C and r is the radial distance 2.0 from the wire (in meters). The radius of the wire is R = 0.005 m. a. Determine the magnitude (absolute value) of the electric potential difference between two points at the radial distances from the wire: r, = 0.20 m and r, = 0.40 m. b. Set up an integral that would allow you to determine the energy stored in the electric field produced by the charged wire. It is not necessary to evaluate the integral.
The electric field due to a very long straight and uniformly charged wire is given by the following expression: E = 0, where E is in N/C and r is the radial distance 2.0 from the wire (in meters). The radius of the wire is R = 0.005 m. a. Determine the magnitude (absolute value) of the electric potential difference between two points at the radial distances from the wire: r, = 0.20 m and r, = 0.40 m. b. Set up an integral that would allow you to determine the energy stored in the electric field produced by the charged wire. It is not necessary to evaluate the integral.
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