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No. An inductance is an inductance. One way to look at an inductance is as an impedance that is a function of frequency: Zind = ωL = 2πfL Where Zind is the impedance magnitude of an inducta...
Answer
#3: Post edited
- No. An inductance is an inductance.
- One way to look at an inductance is as an impedance that is a function of frequency:
- Z<sub>ind</sub> = ωL = 2πfL
Where Z<sub>ind</sub> is the impedance of an inductance, ω and f the applied frequencies, and L the inductance. When ω is in radians/second, f in Hz, and L in Henrys, then Z<sub>ind</sub> is in Ohms.
- No. An inductance is an inductance.
- One way to look at an inductance is as an impedance that is a function of frequency:
- Z<sub>ind</sub> = ωL = 2πfL
- Where Z<sub>ind</sub> is the impedance magnitude of an inductance, ω and f the applied frequencies, and L the inductance. When ω is in radians/second, f in Hz, and L in Henrys, then Z<sub>ind</sub> is in Ohms.
#2: Post edited
No. An inductance is an inductance. One way to look at an inductance is as an impedance that is a function of frequency:- Z<sub>ind</sub> = ωL = 2πfL
- Where Z<sub>ind</sub> is the impedance of an inductance, ω and f the applied frequencies, and L the inductance. When ω is in radians/second, f in Hz, and L in Henrys, then Z<sub>ind</sub> is in Ohms.
- No. An inductance is an inductance.
- One way to look at an inductance is as an impedance that is a function of frequency:
- Z<sub>ind</sub> = ωL = 2πfL
- Where Z<sub>ind</sub> is the impedance of an inductance, ω and f the applied frequencies, and L the inductance. When ω is in radians/second, f in Hz, and L in Henrys, then Z<sub>ind</sub> is in Ohms.
#1: Initial revision
No. An inductance is an inductance. One way to look at an inductance is as an impedance that is a function of frequency: Z<sub>ind</sub> = ωL = 2πfL Where Z<sub>ind</sub> is the impedance of an inductance, ω and f the applied frequencies, and L the inductance. When ω is in radians/second, f in Hz, and L in Henrys, then Z<sub>ind</sub> is in Ohms.