1. The figure shows a cross-section of a long solenoid that has a radius of 2.0 cm and has 700 turns/m. The direction of the current is as shown in the figure. If the current in the solenoid is decreasing at the rate of 8.0 A/s, find the magnitude and the direction of the induced electric field at the point P, which is 2.5 cm from the axis of the solenoid. Draw the E-field vector at point P. Label all distances on the figure. First find an expression in terms of the given quantities then substitute to find a numerical value in units of V/m.

1. The figure shows a cross-section of a long solenoid that has a radius of 2.0 cm and has 700 turns/m. The direction of the current is as shown in the figure. If the current in the solenoid is decreasing at the rate of 8.0 A/s, find the magnitude and the direction of the induced electric field at the point P, which is 2.5 cm from the axis of the solenoid. Draw the E-field vector at point P. Label all distances on the figure. First find an expression in terms of the given quantities then substitute to find a numerical value in units of V/m.

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Question

please include diagram

1. The figure shows a cross-section of a long solenoid that has a radius of 2.0 cm and has 700 turns/m. The
direction of the current is as shown in the figure. If the current in the solenoid is decreasing at the rate of 8.0
A/s, find the magnitude and the direction of the induced electric field at the point P, which is 2.5 cm from the
axis of the solenoid. Draw the E-field vector at point P. Label all distances on the figure. First find an
expression in terms of the given quantities then substitute to find a numerical value in units of V/m.

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