Wiki User
∙ 14y agoIt depends on the current flowing in the wire. V=IR. The wires have resistance (easily calculated, approx. .32 ohms for 200 feet of wire (100 feet out and back)). If 20 amps are flowing in the circuit the the voltage drop is about 6.4 volts. That means you're converting electricity to heat in the wires at a rate of about 130 Watts. If less current is flowing then there is a smaller voltage drop in the wire.
Wiki User
∙ 15y agoThe voltage drop on a 14 2 wire over a 200-foot run will depend on the amperage of the circuit. For a typical residential 15-amp circuit, the voltage drop could be up to 9.6 volts. It is important to calculate the voltage drop to ensure proper functioning of the electrical equipment.
Wiki User
∙ 14y agoVoltage drop would depend on the amperage draw of the device
The loss of voltage over a distance depends on factors such as wire gauge, current flowing, and resistance. For a 200-amp service at 400 feet and then branching off another 30 feet to a separate 100-amp service, there could be a noticeable voltage drop. It is recommended to consult with a licensed electrician to calculate the exact voltage drop and determine if any voltage compensation measures are needed.
Voltage drop calculation is a method used to determine how much the voltage decreases in an electrical circuit due to the resistance of the wires and components. It helps in ensuring that the voltage at the intended load is within the acceptable range for proper operation. This calculation is important to ensure that the voltage supplied to the load is sufficient for it to function correctly.
The voltage drop in a 6-meter length of 16 mm² copper wire carrying a 40 Amp load can be calculated using Ohm's Law and the wire's resistance. Copper wire has a resistance of about 0.000133 ohms per meter. The voltage drop can be found using the formula Voltage Drop = Current x Resistance x Length. Therefore, the voltage drop in this scenario would be approximately 0.32 volts.
Amperage drop with distance depends on the resistance of the conductor and the load. As distance increases, resistance increases, leading to higher voltage drop. This can result in lower amperage at the end of the circuit compared to the source. Use Ohm's Law (V=IR) to calculate the amperage drop based on the resistance and distance.
The voltage loss from using a dimmer switch varies depending on the type of dimmer and the settings used. In most cases, a standard dimmer switch can introduce a voltage drop of around 5-20% when dimming the lights. This reduction in voltage helps regulate the amount of current flowing to the light fixture, allowing for variable brightness levels.
A hundred feet of what?
With voltage control there is so much voltage drop due to resistor, that's the disadvantage
If you are referring to the voltage after the rectifiers in a powersupply, it is due to the voltage drop across the rectifiers.
You shouldn't really have much voltage "drop". If you do, it usually means that there is a poor connection somewhere along your service line or inside wiring. Any significant amount of voltage drop can mean that you are at risk of a fire. On the other hand, line voltage into a house may not actually be 240 VAC. Measure the ACTUAL voltage with everything turned off, then see where it goes when you start turning things back on. The difference between the supplied voltage and the load voltage is the voltage "drop".
A 25 foot cord will not cause enough voltage drop to worry about.
300 feet
200 ~300 V
Must be close to four hundred....
Probably a couple of hundred feet.
About 4 feet
The loss of voltage over a distance depends on factors such as wire gauge, current flowing, and resistance. For a 200-amp service at 400 feet and then branching off another 30 feet to a separate 100-amp service, there could be a noticeable voltage drop. It is recommended to consult with a licensed electrician to calculate the exact voltage drop and determine if any voltage compensation measures are needed.
026 feet