Inductive reactance case of ac) is equivalent to resistance (in case of dc) for inductors.
So if resistance increases current decreases
as well as if inductive reactance increases current decreases
The formula for reactance in a RL CIRCUIT is XL=2(pi)fL
here we can notice that, as inductance increases reactance also increases
If the simple circuit 'increases' what? Rewrite your question so that it makes sense!
Inductive reactance is directly proportional to frequency.
Inductance is inductance, and is not a function of frequency. Frequency affects reactance, and ultimately impedance, not inductance.
There is no such term as 'inductance reactance'; the correct term is 'inductive reactance'. This is the opposition to the flow of a.c. current, due to the inductance of the load, and the frequency of the supply, and is measured in ohms.Inductive reactance is directly proportional to both the supply frequency and the load's inductance.
Synchronous Reactance (in a generator analysis domain) is and equivalent series per-phase inductance term (think per-phase winding resistance) and is mainly composed of the machine's per-phase leakage inductance (equivalent series inductance of primary and secondary flux leakage) and armature reaction (distortion in flux introduced by an armature current in a machine, once again on a per-phase basis; described as a series inductance). L_SyncReac=L_leakage+L_ArmatureReaction. That sort of touches the surface of synchronous reactance.
actually, inductance is directly proptional to the frequency according to the formula , so if frequency is more, then inductance is also more and vice versa
what factors on inductance drepends
Reactance increase means the value of the inductance is already increased because thease two factors are directly proportional to eachother. we can see from the formula ; inductive reactance xL =2(3.14)FL
Inductive reactance, as well as capacitive reactance, is measured in ohms.
Inductance is inductance, and is not a function of frequency. Frequency affects reactance, and ultimately impedance, not inductance.
There is no such term as 'inductance reactance'; the correct term is 'inductive reactance'. This is the opposition to the flow of a.c. current, due to the inductance of the load, and the frequency of the supply, and is measured in ohms.Inductive reactance is directly proportional to both the supply frequency and the load's inductance.
The voltage across the inductance alone will be(value of the inductance) times (the rate at which the current through it changes)
The reactance of an inductor is calculated as Xl = 2πfL, where Xl is the inductive reactance, f is the frequency, and L is the inductance. Substituting the given values of 100 microhenries for inductance and 400 Hz for frequency into the formula gives Xl = 2 * π * 400 * 100 * 10^-6 which equals approximately 251.3 ohms.
Reactance is measured in ohms. By convention inductance produces a positive reactance while capacitance has a negative reatance. This is a convention that is consistent with a time-dependecy of exp(+jwt).
Synchronous Reactance (in a generator analysis domain) is and equivalent series per-phase inductance term (think per-phase winding resistance) and is mainly composed of the machine's per-phase leakage inductance (equivalent series inductance of primary and secondary flux leakage) and armature reaction (distortion in flux introduced by an armature current in a machine, once again on a per-phase basis; described as a series inductance). L_SyncReac=L_leakage+L_ArmatureReaction. That sort of touches the surface of synchronous reactance.
Inductive reactance, XL, in ohms, is given by:XL = 2 pi f Lwhere:f = frequency (Hz)L = inductance (H)
actually, inductance is directly proptional to the frequency according to the formula , so if frequency is more, then inductance is also more and vice versa
Yes, but you need to convert inductance and capacitance to reactance.
what factors on inductance drepends