The inductance of a coil is not related in any simple way to the length of the wire
or other conductor of which it is wound. The inductance is at least as heavily
influenced by the diameter of the coil.
150 millihenries
Inductance is inductance, and is not a function of frequency. Frequency affects reactance, and ultimately impedance, not inductance.
'Reactance' is the name given to the opposition to the flow of alternating current, due to the inductance of a load and the frequency of the supply voltage. It is measured in ohms.
It can't, unless there's some other coil, such as a bunch of wire between the two, or you're measurement equipment is off. Two inductors in series will have the same inductance as the two summed together.
Yes, you can use both, but watts is more useful; it provides the total amount of power the generator can output.
Inductors in series add up, so 15 mH
Inductance is inductance, and is not a function of frequency. Frequency affects reactance, and ultimately impedance, not inductance.
Inductance in series is the sum of the individual inductances.
Inductance in series is the sum of the individual inductances.
The total amount you will have will be measured in the units of currency in which you are selling the bars. Since you have not specified what currency unit you are referring to, the answer cannot be more specific.
You calculate the total amount of whatever it is that you want to find the silicon abundance for. Then you calculate the amount f silicon in that. Then percentage abundance of silicon = 100*amount of silicon/total amount Typically the amount would be measured as the mass.
Volume and it is measured in cubic units.
hundred
Resource utilization is the total amount of resources actually consumed, compared against the amount of resources planned for a specific process. It is normally measured as a percentage.
'Reactance' is the name given to the opposition to the flow of alternating current, due to the inductance of a load and the frequency of the supply voltage. It is measured in ohms.
The inductance of an inductor is the capacity of the inductor to induce electric flux. The capacitance of a capacitor is the capacity of the capacitor to store charges. THE IMPEDANCE OF A CIRCUIT IS THE TOTAL OPPOSITION OFFERED TO THE FLOW OF ELECTRIC CURRENT.
The C-paradox refers to the challenge in reconciling classical physics with quantum mechanics, particularly as it relates to the nature of time and space. It highlights the contradictions that arise when trying to apply classical principles to quantum phenomena, such as the uncertainty principle and wave-particle duality. Resolving the C-paradox is a major goal in theoretical physics.
It can't, unless there's some other coil, such as a bunch of wire between the two, or you're measurement equipment is off. Two inductors in series will have the same inductance as the two summed together.