You can divide a three phase service into (3) single phase circuits providing you have a 4th neutral wire.
Divide by your number of phases 1 or 3 then divide by your Voltage. If its a 3 phase supply Voltage you need to divide by your 3 phase voltage for balanced loads and by your single phase voltage for unbalanced loads requiring a neutral.
In three-phase systems, we always consider individualline or phase currents, or individual line or phase voltages. In other words, we treat currents and voltages no differently from single-phase currents or voltages (i.e. we don't 'combine' them because they are three-phase quantities). So these quantities are expressed in r.m.s. values.
Va=volts x amps. The K stands for one thousand. So 1 Kva is one thousand watts. So 415v times 120a= 49,800 what's. You divide that by a thousand and you get 49.8. So it would be 49.8 Kva.
For a single-phase transformer, divide the ratedapparent power (expressed in volt amperes) by the voltage rating (expressed in volts) of the primary winding; this will give you the rated primary current (expressed in amperes) of the primary winding.
It is the Ana Phase. It is the shortest phase
DNA is duplicated in the S phase because in the G1 phase the cell is growing and not yet ready to divide, then DNA copies as the first step for when it is getting ready to divide. In the G2 phase the cell continues to get ready to divide once the DNA is copied.
Anaphase 2.
telophase
M phase of the cell cycle
You can divide a three phase service into (3) single phase circuits providing you have a 4th neutral wire.
The answer is:They divide.~Good luck noveNET people. =]
During the Cell Cycle phase known as M(Mitosis)-phase. This occurs directly between S(Synthesis)-phase and G(Growth)-phase.
G0 phase
G0 phase
G0 phase
During G0 phase cells withdraw from the cell cycle and are dormant and do not grow or divide. The G0 phase (G sub 0) is a period in the cell cycle where cells exist in a quiescent (dormant) state. During the G0 phase, the cell cycle machinery is dismantled and cyclins and cyclin-dependent kinases disappear. Cells then remain in the G0 phase until there is a reason for them to divide.