3 Kv = 3,000 volts.
3300 volts
KV is the abbreviation for kilovolts. The prefix kilo means thousands, so 220 kv means 220 kilovolts, or 220,000 volts.
5 kV ac means 5 kV rms, which represents a peak voltage of 5 x sqrt (2) kV, or 7.07 kV. So the dc test should provide 7070 volts.
Multiples of 11 kV are used in many countries. The idea is to deliver a round number of volts so you add on 10% to allow for line losses. So 10 kV becomes 11 kV. In practice lines are operated without a 10% voltage drop now because it represents an unacceptable waste of energy, but we have stuck with 11 kV etc. Common supply voltages used for area distribution are 6.6 kV, 11 kV, 33 kV, 66 kV and 132 kV.
in the bunnings warehouse in n.s.w
'VPM' appears to be some non-standard symbol for 'volts per metre', the correct symbol for which is 'V/m'. For insulators, many tables list their dielectric strengths in kilovolts per metre (kV/m) or even kilovolts per millimetre (kV/mm).
A voltage of 13.8 kV is equal to 13,800 volts.
2,100 volts = 2.1 kv
13,800 volts 1 kv = 1 kilovolt = 1000 volts
4160 volts
The k in kV stands for 1,000 and the v stands for volts. Divide 25,000 by 1,000 you get 25 kv.
20,000 volts = 20 kv
Could be zero, could be 1000 amps. Amps are not the same thing as volts.
1.0 kilo volts = 1000 volts1000 effective volts is 1kV.
There is no city KV. KV stands for Kilo Volts
220 volts, 110 volts, 440 volts, 400 volts, AC or DC voltage. High voltage like - 220 KV, 400 KV, etc
In the abbreviation scheme that I am familiar with, 1 mv represents 1 millivolt, or 1 X 10 -3 volts. 1 kv represents 1 kilovolt, or 1 X 10 3 volts. So 1 mv would be 1/100,000 of a kv.
65 kV = 65,000 v