When the capacitor charge q is positive, the measured voltage in 1 is positive.

1. When the current I is positive, the capacitor charge Q isdecreasing.
2. When the current I is positive, the measured VOLTAGE IN 2 willbe negative.
3. When the capacitor charge Q is positive, the measured VOLTAGE IN1 is positive.
4. The capacitor charge Q exponentially decays to zero when the RELAY is thrown to position N.O.
5. The transient currents that flow in this experiment decay exponentially to zero

Answer:- 

  1. The capacitor charge Q is lessening though the current I is positive is false
  2. If the measured voltage in 2 is negative when the current I is positive, it is false.
  3. When the measured VOLTAGE IN1 is positive, the capacitor charge Q is positive, which is True.
  4. When the RELAY is unnerved to the position N.O is False, the capacitance charge Q rapidly decays to zero.
  5. This experiment’s fleeting currents flow exponentially lessening to zero, which is false

A capacitor refers to the kind of electric device that can charge and store electrical energy when a voltage is applied to their terminals.

Formulas link the applied voltage to the capacitance’s charge Q and currents I.

The ending formula displays that while the current is positive, the capacitor’s voltage is positive (increasing) and the

Q=CV

I=dQ/dt=C(dQ/dt)

The charge is rising.

As a consequence, the question’s declaration is false.

As the current is flowing from VOLTAGE IN 2 to VOLTAGE IN 1 it will be positive.

As a consequence, the question’s assertion is false.


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