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∙ 15y agoAnswer for USA, Canada and countries running a 60 Hz power supply service. No it is still 100 amps. The two switches are 100 amps each but they protect the two separate legs, L1 and L2. If this is a main service the electrical code states that if either leg L1 or L2 trips both legs feeding the panel will shut the power to the panel completely off. If this is a separate load off of the mail panel which it sounds like it might be, because of the pin between the two breakers, the same rule still applies. L1 to neutral is 120 volts, L2 to neutral is 120 volts and L1 to L2 is 240 volts.
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∙ 15y agoNo, having two switches with a pin does not increase the total amperage available. Each switch can control a portion of the total 100 amps coming from the main switch, but the total available amperage remains at 100 amps.
A 100 amp service will supply your electrical current needs UP TO 100 amps.When doing load calculations on a 100 amp panel it can only be loaded up to 80 amps.
You need the volts times the amps to equal 100 Watts. On 12 v that is 8.33 amps, or on 200 v is it 0.5 amps.
You can determine the size of your main breaker box by looking at the number of circuits it can handle. A typical residential main breaker box is usually 100 amps, 150 amps, or 200 amps. You can also check the label on your breaker box or consult with an electrician for assistance.
You can typically determine the amperage of an electrical panel by looking at the main breaker. A 100 amp panel will have a main breaker rated at 100 amps, while a 200 amp panel will have a main breaker rated at 200 amps. Additionally, the size and number of circuit breaker slots can also be indicators of the amperage rating.
100 amps
max. 100 amps then fuse blows.
you will need large numbers of swiches and CAT5 cable... an lots of time Connect the swiches to each other in a token ring fasion (edit this to make sure you can read it correctly) switch >>>>> switch >>>> switch | | |<<<<<<<<<<<<<<<<<<<<<| or if you are fortunate enough, use the special "uplink" caling system by the mfg. you can get monserous speed that way. anyway...once done w/that, grab a couple of PC's and put them on furthest swiches and then try to play the game in mp mode... if the n/w is too slow, you will need to upgrade your equipment... (be sure to buy from a local retailer if you can so you can swap out quickly) once done, load up your machines and let her rip!
A 100 amp service will supply your electrical current needs UP TO 100 amps.When doing load calculations on a 100 amp panel it can only be loaded up to 80 amps.
You need the volts times the amps to equal 100 Watts. On 12 v that is 8.33 amps, or on 200 v is it 0.5 amps.
For a 100 amp service, a common feeder wire size would be 2 AWG (American Wire Gauge) copper or 1/0 AWG aluminum. These sizes are appropriate for handling the current capacity needed for a 100 amp electrical service. It is important to consult with a licensed electrician or local building code requirements to ensure the proper wire size for your specific installation.
Yes, it is possible to convert voltage and current using a transformer or a converter. In this case, you could step down the voltage from 100 VDC to 25 VDC while increasing the current from 1 Amp to 10 Amps using the appropriate transformer or DC-DC converter. Make sure to choose a device that can handle the power requirements of the converted circuit.
You can determine the size of your main breaker box by looking at the number of circuits it can handle. A typical residential main breaker box is usually 100 amps, 150 amps, or 200 amps. You can also check the label on your breaker box or consult with an electrician for assistance.
A three wire home distribution service rated at 100 amps has a wattage capacity of;From L1 to L2 at 240 volts x 100 amps = 24000 watts or 24 kilowatts. From L1 to neutral at 120 volts x 100 amps = 12000 watts or 12 kilowatts. From L2 to neutral at 120 volts x 100 amps = 12000 watts or 12 kilowatts.
To calculate the amperage, you can use the formula: Amperes = Watts / Volts. So for a 100-watt bulb connected to a 240-volt source, the amperage would be 0.42 Amps.
Using a wire rated for 100 amps for a 60-amp circuit is generally fine. It's important to ensure that the wire gauge matches the amperage requirements to prevent overheating and potential fire hazards. Check local electrical codes to confirm that it is within regulations.
Watts=Volts times Amps So without knowing the voltage the amps can be anything. At 100 Volts it'd be 14 Amps.
100 amps