400 v each phase
The clock signal in a microprocessor allows synchronization of several components of the microprocessor. The correctness of the computation of the microprocessor depends upon efficient and balanced distribution of the clock signal. The clock generator generates the clock signal.
If the generator is 3-phase 120/208 v. it produces 104.21amps per phase using the formula 30,000 / (1.73 x 208 x .80). If it is 277/480 v. It gives 45.18 amps. A singlephase generator will give 125 amps at 240 volts and 62.5 amps at 480v.
WE CAN use the balanced modulator & also the double balanced modulator(DBM) THANKS. ASMA
'Balanced loads' apply to three-phase a.c. loads. A three-phase kilowatt hour meter will measure both balanced and unbalanced loads, when correctly connected.
I am assuming that you really want to use ammeters to measure power in a balanced 3 phase system. (hope you are not meaning 3 watt meter method) Power in Watt in a three phase system is equal to 1.73 x line voltage x line current x power factor. You need to know line voltage, power factor also in addition to current to compute the power. If the system is balanced then actually you do not need to connect ammeters in all three lines. One ammeter reading will do.
Assuming you mean 2FeO3+3C ---> 4Fe+3CO2, yes, it is balanced.
No. Assuming the water has been treated/is balanced.
Assuming you mean the semi-circular canals in the ear... they help keep us balanced.
Assuming that the colors are balanced, the probability is 1 in 5.
The clock signal in a microprocessor allows synchronization of several components of the microprocessor. The correctness of the computation of the microprocessor depends upon efficient and balanced distribution of the clock signal. The clock generator generates the clock signal.
Assuming this is a physics question, when all the forces acting on an object are balanced, the object is in equilibrium. For example, when a car is at a constant velocity, with no acceleration, all the forces are equal.
2KClO3 --> 2KCl + 3O2
Fe(NO3)2 + 2NaOH-->Fe(OH)2 + 2NaNO3 (Assuming Fe is Fe (II))
balanced force is when things are balanced.
Water and Carbon dioxide. Here is the Balanced combustion eq'n. CH3CH2CH3 + 5O2 = 4H2O + 3CO2
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, it sure can. Have your tires inspected and balanced before assuming the drive shaft is the culprit. You may also have a bent wheel.