If you use AC components (i.e. inductor or capacitor ) on DC circuit, they will initially behave different than at steady state. Steady state is the state in which the behavior is not changing with time. (theoretically after infinite time, practically within small time any ckt reaches steady state)
The reciprocal of reactance is susceptance, expressed in siemens.
for inductor, reactance XL = 2*pi* f *L, if frequency doubles then reactance increase. But for capacitor, reactance Xc = 1/(2*pi*f*C). In this case if frequency doubles the reactance decrease.
The unit of measurement for inductive reactance (XL) is the ohm.
Since capacitive reactance is inversely-proportional to the supply frequency, as the frequency is increased, the reactance will decrease.
The capacitive reactance of a capacitor increases as the frequency decreases.
no
steady state; unchanging; stable
Steady state gain,
The leakage reactance is one of the components of the reactance in the input impedance that is there when the load impedance is purely resistive. The leakage reactance is due to flux that fails to link both the primary and the secondary windings.
steady state is a condition when the temperature neither increases nor decreases.....
what is steady state flow process in fluid dynamics
Homeostasis is the steady state physiological condition of the body. Maintains internal environment.
The steady-state theory is obsolete - it is now known that the Universe does change over time (the Steady-State Theory states that it doesn't). According to the Steady-State Theory, the Universe has no beginning and no end.
Red shift does not support the steady state theory.
Inductive reactance, as well as capacitive reactance, is measured in ohms.
In physiology, a steady state is called homeostasis.
Inductive reactance.