The correct answer is: A. Have a high voltage developed across each inductive and capacitive section.
A parallel AC circuit in resonance is a circuit that has both inductive and capacitive reactance. When the inductive reactance and capacitive reactance are equal in magnitude, but opposite in sign, the total reactance of the circuit is zero. This means that the only impedance in the circuit is the resistance, which is usually very small. As a result, the current in the circuit is very large, and the voltage across each inductive and capacitive section is also very large.
Option B is incorrect because a parallel AC circuit in resonance has a low impedance, not a high impedance.
Option C is incorrect because a parallel AC circuit in resonance does not act like a resistor of low value. It acts like a resistor of zero value.
Option D is incorrect because the current in each section of a parallel AC circuit in resonance is not equal to the line current. The current in each section is equal to the line current divided by the sum of the inductive and capacitive reactances.