Ideally all three phase currents will be equal. There may exist some voltage imbalance from the power source, which will result in unequal currents.
Yes, but only for balanced loads (current in all three phases the same value). The voltage value used is the phase to phase voltage.
Yes, but the ratio of P and Q should be kept equal.
ideally there will not be any resistance to the capacitor,so at this condition it should not not discharge the stored energy. but practically small resistance will be there in the capacitor so the energy stored by the capacitor will be discharged through resistance.
Voltage sources connected in parallel should have equal voltage. Otherwise the stronger battery would attempt to charge the weaker creating a lot of heat and depending on the type of battery there is the chance of explosion.
the answer is .017 kilohms. To get this answer you will do a unit converions knowing that 1 kilohms is equal to 1 ohm.So...17 ohm * (1 kohm/1000 ohm) = .017I realize that's a typo, but that conversion should read 1 kilohm is equal to 1000 ohms.
Yes, the minimum is three wires, usually used when the three phases are in balance, with equal currents in all three lines. In conditions when the three phases might be unbalanced, a neutral wire is added, which makes it a 3-phase 4-wire system, and the current in the neutral depends on how out-of-balance the currents in the three lines are.
The amount of time that elapses between each of the four principal phases of the moon is 29.5 days. The phases are roughly equal to each other.
They are only equal in certain specific conditions.
The simplest way to put it: Moon phases are simply the passing of the lunar daytime and night across the moon's surface over the course of one month. One entire lunar day is equal to one full set of phases. [Note: the earth's shadow has absolutely nothing to do with the moon's phases.]
The number of moles is equal.
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.
•The RMS line voltages of the two generators must be equal.••The two generators must have the same phase sequence.••The phase angles of the two a phases must be equal.••The frequency of the new generators, called the oncoming generator, must be slightly higher than the frequency of the running system.
This is normal practice - but the loading of each phase should be roughly equal. In the UK, electricity is distributed as 3-phase but domestic premises only ever have single phase supply - in any street, the houses will be connected in roughly equal numbers across each phase.
a pattern that is produced by adding or subtracting signals in or out of phases is called lissagious pattern.It is the type of pattern that is produced on the screen of an oscilloscope.by ADDING OR SUBTRACTING SIGNALS IN-OUT OF PHASES CAUSES A LISSAJOUS PATTERN. This is caused by comparing phases any magnitude if equal and set out of 90 degrees will be a circle on a Lissajous patter.
Yes. It's precisely equal to 25 at all times and under all conditions.
The values of f and g are equal at each point in the domainThe domains of f and g are equal
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