125 amps is a measure of electrical current, indicating the flow of electric charge in a circuit. It represents the amount of current that can flow through a conductor, such as a wire, when a voltage is applied. In practical terms, 125 amps can power multiple electrical devices or appliances, depending on their individual power requirements. To understand its significance, it's essential to consider the voltage and the total power (in watts) being consumed in the system.
watts = amps (times) voltage watts (divided by) voltage = amps 140 (div by) 120 = 1.66 140 (div by) 125 = 1.12
To calculate the current in milliamps, use the formula: current (in milliamps) = power (in watts) / voltage (in volts). In this case, 1.5 watts / 12 volts = 0.125 amps. To convert this to milliamps, multiply by 1000: 0.125 A * 1000 = 125 mA. Therefore, 1.5 watts at 12 volts is equivalent to 125 milliamps.
25mA is equal to 0.025 amps.
45-50 amps. But your overcurrent protection and wire must be designed for 125% of load so the max overcurrent protection is 55 amps or 60
Depends on the voltage output, in a 12 Volt system 12.5 Amps equals 150 Watts, the equation is, (Amps x Volts)= Watts <<>> 12.5 amps is zero watts. Watts is the product of amps x volts. Without the voltage value an answer can not be given.
You should not load a 125 amp panel any more than 100 amps.
depends on its use. If its for residential service its good for 125 amps In commercial and industrial installations it's a bit more complicated but you end up at the same 125 amps.
The maximum current capacity of a 125 amp breaker is 125 amps.
depends on its use. If its for residential service its good for 125 amps In commercial and industrial installations it's a bit more complicated but you end up at the same 125 amps.
The maximum amperage rating of the 125 amp Homeline breaker is 125 amps.
You physically can but sit will be unsafe, and will not protect the circuit because it will not blow when it should. Only replace a fuse with the same size fuse.
A 3/0 aluminum conductor will limit the voltage drop to3% or less when supplying 125 amps for 175 feet on a 220 volt system. If the 125 amp load is a sub distribution panel that is not going to be fully loaded to 125 amps then using the exact connected load, which might be smaller than 125 amps will effect the wire sizing. The grounding conductor for that size distribution panel is #6 bare copper.
The maximum amperage capacity of a 125 amp panel with a main breaker is 125 amps.
The maximum amperage rating of a 125 amp Square D breaker is 125 amps.
The maximum amperage rating of the Square D 125 amp breaker is 125 amps.
A three phase 30 HP at 240 volts draws 80 amps. Motor feeders have to be rated at 125% of the motors full load amps. 80 x 125% = 100 amps. A # 3 copper conductor with an insulation factor of 75 or 90 degrees C are rated at 100 and 105 amps respectively. Non-time delay fusing is 225 amps, time delay fusing is 125 amps and a circuit breaker is sized by 250% x 80, the full load amps, which equals 200 amps.
To answer this question a current value needs to be given. 125000 is the product of amps times volts. I = W/E = 521 amps. So to bring 240 volts up to 125 KVA you need the circuit load to draw 521 amps.