Objective: Investigation of how the voltage across a capacitor changes over time when the capacitor is charging or discharging
In a DC circuit, current only flows through a capacitor at the point in time when the power is turned on or off ...
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Objective: Determine the impedance of a capacitor as a function of capacitance and frequency
Any change in voltage across a capacitor gives rise to a flow of current through the component. If an AC voltage is applied, alternating current ...
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Objective: Investigation of how the current through a coil changes over time when the DC supply is turned on and off
The behaviour of a coil in a DC circuit changes as soon as the DC supply is turned on or off. The change in current is delayed ...
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Objective: Determine inductive impedance as a function of inductance and frequency
Any change in the current through a coil induces a voltage. If an alternating current flows, an AC voltage will be induced, which is shifted in phase with ...
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Objective: Determine the AC resistance in a circuit with capacitive and resistive loads
In AC circuits, not only ohmic resistance needs to be taken into account but also the resistance due to capacitive loads. The combination of the two ...
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Objective: Determine the AC resistance in a circuit with inductive and resistive loads
In AC circuits, not only ohmic resistance needs to be taken into account but also the resistance due to inductive loads. The combination of the two may ...
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Objective: Determining impedance in a circuit with an inductive and a capacitive reactance
AC circuits with inductive and capacitive reactances show resonant behaviour. At the resonant frequency, the impedance of a series connection of an ...
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