increase the size of conductor ,provide the hallow conductor,increase the critical disruptive voltage bv providing shunt capacitors. these capacitors increases the power capacity of the line.
Yes.Source transformation in dependent voltage source can be solved the same like independent voltage source
There is normally no voltage on the neutral line because the neutral line is grounded. However, and this is always important, do not assume that neutral is grounded, nor that there is not an elevated voltage on neutral or ground due to a possible ground fault.
because the voltage likes to drop
I believe that Vcc stands for Voltage Common Collector. This is because the voltage is hooked up to the collector of the transistor.
Low voltage, high voltage, or a fault; the effects of these could be damage to equipment, including the transformer and tap cahnger.
It's not shocked because it has absorbent scales on its skin that absorbs and stores the voltage of its shock until needed. These scales are insulated against electricity
no, because baat aisi hai bhai agar voltage jyada hogi to connection toot jayega to wireless transmission kya ghanta hoga...... :D
yes
a big no
Voltage Stabilizer is also called Automatic Voltage Stabilizer or AC Voltage Stabilizer or Voltage Regulator. Actually an automatic voltage stabilizer is designed to automatically maintain a constant voltage level, with protections of equipment against voltage surges, over voltage, under voltage, smoothing impulsive noise.
A: Transformers are designed for the maximum voltage they can sustain in operation a lower voltage operation should not bother them
Yes.Source transformation in dependent voltage source can be solved the same like independent voltage source
yes
As little as possible
There is normally no voltage on the neutral line because the neutral line is grounded. However, and this is always important, do not assume that neutral is grounded, nor that there is not an elevated voltage on neutral or ground due to a possible ground fault.
Because it is only possible to have a voltage in the secondary winding when the current in the primary is changing. This is why only alternating current can be used for transformers.
Because the two variables cannot be zero voltage = current*resistance if we draw graph current against resistance we would see a exponential graph which means the two variables are inversely proportional but either cannot be zero because voltage is not equal to 0 n.j.p