The figure shows an initially uncharged capacitor connected to a resistor, in a uniform magnetic field pointing into the page (-z direction). Choose which changes to the system would cause the top plate of the capacitor to become positively charged. Decreasing the magnetic field strength. Rotating the circuit 90° counterclockwise around the y axis. True False Rotating the magnetic field 90° counterclockwise around the x axis (so that the field ends up pointing towards +y). O Increasing the magnetic field strength. O Reversing the direction of the magnetic field. O Rotating the circuit clockwise around the z axis.

The figure shows an initially uncharged capacitor connected to a resistor, in a uniform magnetic field pointing into the page (-z direction). Choose which changes to the system would cause the top plate of the capacitor to become positively charged. Decreasing the magnetic field strength. Rotating the circuit 90° counterclockwise around the y axis. True False Rotating the magnetic field 90° counterclockwise around the x axis (so that the field ends up pointing towards +y). O Increasing the magnetic field strength. O Reversing the direction of the magnetic field. O Rotating the circuit clockwise around the z axis.

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Question

The figure shows an initially uncharged capacitor connected to a resistor, in a uniform magnetic field pointing into the page (-z direction). Choose which changes to the system would cause
the top plate of the capacitor to become positively charged.
Decreasing the magnetic field strength.
Rotating the circuit 90° counterclockwise around the y axis.
True
False
Rotating the magnetic field 90° counterclockwise around the x axis (so that the field ends up pointing towards +y).
O Increasing the magnetic field strength.
O Reversing the direction of the magnetic field.
O Rotating the circuit clockwise around the z axis.

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