To calculate the amperage, you can use the formula: Amperage (A) = Watts (W) / Voltage (V). In this case, the heater draws 3500 watts and operates at 230 volts. So, the amperage will be approximately 15.22 amps.
The answer to this is country-specific. In the United States: Residential 120 VAC. Commercial also uses 277 VAC Elsewhere in the world: 220 volts to 260 volts, most frequently 230-240 volts AC.
It depends on the equipment. The nameplate of the appliance should have the appropriate voltage tolerances and frequency requirement. In North America, most appliances will be designed for 60 Hz use. Higher voltage residential appliances are typically rated at 230 VAC. The typical household voltage supplied by the utility is between 220 - 250 VAC (between phase), and 110 - 125 VAC (phase to ground) . In commercial and multi-family units, it is very common to have 120/208 VAC instead (beyond the scope of this question). Therefore, most ranges, water heaters, air conditioners, heaters, and dryers are designed to operate at 208 VAC as well. You should read the nameplate of the appliance, read the owners manual, and / or consult a licensed electrician if you are still unsure. C. P., Master Electrician
You can convert 24 vac to 5 vac with a transformer with windings in the turns ratio of 24 to 5.
the ghost vac is a object used to suck up ghosts
It will burn due excess current .
yes, UL listing requires them to work with tolerance of 10% over equipment voltage
They don't. The UK uses 230 VAC 50 Hz.
It will overheat, probably even on no-load. It might blow the circuit breaker or start producing smoke.
The transformer size is calculated by using the load current that is required on the secondary side of the transformer. This secondary current is multiplied by the secondary voltage times 1.73. This total is then divided by 1000 to give you KVA. KVA = I x E x 1.73/1000.
It will burn out violently, possibly exploding, sending broken glass everywhere.
It varies from country to country. In the USA it is 110 volts, in the UK it 230 volts +/- 10%/6%. In practise in the UK it is 240s volt +/- 6%, the slightly odd looking specification allows harmonisation with rest of Europe. In all these cases, the mains voltage is supplied AC (alternating current) and the voltage is given as root mean square (RMS). The peak voltage in the UK is 384 volts.
To calculate the amperage, you can use the formula: Amperage (A) = Watts (W) / Voltage (V). In this case, the heater draws 3500 watts and operates at 230 volts. So, the amperage will be approximately 15.22 amps.
Yes and no. Your electric panel has two bus bars. Each supplies 120 VAC. If you measure the voltage across these two buses you get 230-240 VAC. The buses are staggered top to bottom such that each breaker, top to bottom, alternates which of the buses they connect to. A 2-pole breaker would typically be use for 230-240 VAC service, but could be used for two 120 VAC circuits. However, in the latter case if either of the 120 VAC circuits tripped, both would trip. In the case of two single pole breakers, it would depend if they were connected to each bus or the same bus. However if used for a 230-240 VAC service you would want both to trip if either side tripped. This is done by joining together the handles of each breaker stacked on above the other in panel.
The answer to this is country-specific. In the United States: Residential 120 VAC. Commercial also uses 277 VAC Elsewhere in the world: 220 volts to 260 volts, most frequently 230-240 volts AC.
For commercial buildings 110/115 VAC outlets should all be rated at least 20 A. For commercial buildings 220/230 VAC outlets as well as 3-phase outlets of any voltage can be installed with any rating the user's equipment requires.
It depends on the equipment. The nameplate of the appliance should have the appropriate voltage tolerances and frequency requirement. In North America, most appliances will be designed for 60 Hz use. Higher voltage residential appliances are typically rated at 230 VAC. The typical household voltage supplied by the utility is between 220 - 250 VAC (between phase), and 110 - 125 VAC (phase to ground) . In commercial and multi-family units, it is very common to have 120/208 VAC instead (beyond the scope of this question). Therefore, most ranges, water heaters, air conditioners, heaters, and dryers are designed to operate at 208 VAC as well. You should read the nameplate of the appliance, read the owners manual, and / or consult a licensed electrician if you are still unsure. C. P., Master Electrician