The phase difference between any two live lines is 120 degrees, which allows them to peak in turn in the 360-degree cycle.
No, this voltage appears ACROSS individual phases, or BETWEEN a line conductor and the neutral
The phase voltage is usually constant and determined by the supply voltage.
magnetic core balance test is used to find out the flux distribution. It can conduct either in HV side or LV side. In HV side, applying voltage between 2 phases and measuring the voltage across other phase.(eg.applying b/w U&V, and voltage b/w V&W , W&U measuring.) In LV side, applying voltage b/w any phase....and measuring voltage across other phases. Result: sum of measured voltage will be equal to applied voltage.
A principal difference between solid phases is the crystal structure, or arrangement, of the atoms
The spacing is determined by the voltage. The higher the voltage the greater the line separation. Without the voltage a line separation can not be answered.
A grounded neutral will be at earth potential. A floating neutral will be at a voltage dependent upon the voltage imbalance between phases, and the design of the transformer.
You cannot have 380 V between 'phases'. You can, on the other hand, have 380 V 'between lines'! '380 V between lines' refers to the voltage measured between any pair of line conductors in a three-phase system.
three phases
in a delta configuration the current is split between the phases, as opposed to a wye configuration where the current will be equal on all phases. and vice versa for voltage.
Well if you are talking about phases, it would be half of 208V.
Non-homogeneous materials have two or more phases.
There are many different phases. What kind of phase are you interested in?