A time-varying electric field is produced inside a cylinder of R = 5.0 cm, given by the expression: E(t)= (1.67x109 t2) v/ms2 . The electric field outside the cylinder is always zero. If the electric field is directed in the direction presented in Figure: 1. Find an expression to calculate the displacement current of the cylinder for the region ? ≤ ?, in terms of radial position and time. 2. What is the magnitude of the magnetic field for the region ? ≤ ?, in terms of the position and the weather?

A time-varying electric field is produced inside a cylinder of R = 5.0 cm, given by the expression: E(t)= (1.67x109 t2) v/ms2 . The electric field outside the cylinder is always zero. If the electric field is directed in the direction presented in Figure: 1. Find an expression to calculate the displacement current of the cylinder for the region ? ≤ ?, in terms of radial position and time. 2. What is the magnitude of the magnetic field for the region ? ≤ ?, in terms of the position and the weather?

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Question

A time-varying electric field is produced inside a cylinder of R = 5.0 cm, given by the expression: E(t)= (1.67x10⁹t²) v/ms².

The electric field outside the cylinder is always zero. If the electric field is directed in the direction presented in Figure:

1. Find an expression to calculate the displacement current of the cylinder for the region ? ≤ ?, in terms of radial position and time.

2. What is the magnitude of the magnetic field for the region ? ≤ ?, in terms of the position and the weather?

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Step 1: Calculation of displacement current density

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