You would need to use de Moivre's theorem.
Not sure what you're asking, but being the question is in Complex Numbers category, it could be this:If the real part of a complex number is zero, then it is a pure imaginary number.
It could be irrational or complex.
It could be an imaginary number or a complex number or on belonging to a higher class of numbers.
No. A complex number consists of a real part and a imaginary part. If the real part equals zero, there is only the imaginary left and you could therefor argue that it is an imaginary number (or else it would still be a complex number -with a real part=0)
It could stand for a number of things, one being, the "International Conference of Building Officials."It could stand for a number of things, one being, the "International Conference of Building Officials."It could stand for a number of things, one being, the "International Conference of Building Officials."It could stand for a number of things, one being, the "International Conference of Building Officials."It could stand for a number of things, one being, the "International Conference of Building Officials."It could stand for a number of things, one being, the "International Conference of Building Officials."
One can obtain a copy of Vista Service Optimizer from a number of websites such as CNET and PC World. One can also obtain a copy from computer software stores.
A number which is not a whole number. It could be a fraction whose absolute value is less than one or a mixed (r improper) fraction, an irrational number, an imaginary or complex number, and so on.
"the method was very Complex"
SAP is extremely complex and over-engineered. So, no it is not. It's driving factor is that it provides every feature you could possibly ever need at the cost of being overly complex.
It is a non-integer. It can be a rational fraction (in decimal or rational form); it can be an irrational number (including transcendental numbers); it could be a complex number or a quaternion.
There are many places where one could obtain MgSo4 from. One could obtain MgSo4 from popular on the web sources such as Chegg, Science Madness, and Web QC.
Calculators, probably in the 1980's (I know for a fact the HP 48 calculator circa 1992 handled complex and imaginary numbers) helped people perform calculations with complex numbers, without having to figure conjugates, angles, etc. on paper. Complex number computing was long before that. I know that FORTRAN (developed by IBM and released in 1957) could handle complex number calculations. FORTRAN was designed specifically for scientific and engineering calculations. Check out the Wikipedia article.