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I don't think you can do that, with the information provided.
formula are given at www.calculatoredge.com
You seem to be mixing up your terminology. There is no such thing as 'self-capacitance of an inductor'! If you know the frequency and equivalent capacitance for two capacitors, then you can find the equivalent capacitive reactance of the capacitors, but that's not what you seem to be asking! I suggest you rephrase the question.
Each atomic orbital is designated by the principal quantum number followed by the letter of the sublevel. -for more information see..."Modern Chemistry" text book Pg.108 3rd and 4th paragraph.
The formula you are looking for is I = W/E
The formula for calculating power if you are given a magnetic field is sub 43
divide diameter by 2
Since no further information is given, we can only say that mass=density x volume x acceleration due to gravity.
The formula for calculating birth rate is (Number of Births / Total Population) x 1000. This formula allows you to determine the number of births per 1,000 individuals in a given population over a specific period of time.
General formula for calculating efficiency is given by Efficiency = (output / input) * 100 It is denoted by greek letter Eta Efficiency cannot be more than 100%.
Veloicty is distance divided by time, for a object moving in a given direction. If direction is not given, then it is speed.
There is not enough information to calculate pressure. Here are some relevant formulae: Force = mass x acceleration Pressure = force / area
Calculating the radius of a semicircle depends on what information about the semicircle is given.
The answer depends on what he formula is for and what other information is given.
I = E/R or Current = Voltage/Resistance (Ohm's Law)
You can use the cosine rule to calculate the central angle.
There is no formula for a rectangle. There are formula for calculating its area, perimeter or length of diagonals from its sides, or it is possible to calculate the length of one pair of sides given the other sides and the area or perimeter, or the two lots of sides given area and perimeter and so on.