To answer this question a voltage must be given. 25 amps drawn by a bulb seem to be on the high side.
To determine how many 3-watt bulbs can be powered by a 500VA transformer, divide the VA rating of the transformer by the wattage per bulb: 500VA / 3W = 166.66 bulbs. In this case, you can power approximately 166 bulbs with a 500VA transformer.
To determine how many 12-volt, 50-watt bulbs can be used on a 100 VA transformer, first convert the transformer's capacity from VA to watts, which is effectively the same for resistive loads (100 watts in this case). Each 50-watt bulb requires 50 watts, so you can divide the total available watts by the wattage of one bulb: 100 watts ÷ 50 watts/bulb = 2 bulbs. Therefore, you can use 2 of the 12-volt, 50-watt bulbs on a 100 VA transformer.
No, the 300 watt low voltage transformer will not be able to power 150 watts of bulbs 250 feet away. The voltage drop over the distance will be significant and may not provide sufficient power to light up the bulbs effectively. It is recommended to use a higher wattage transformer or install additional transformers closer to the bulbs.
No, G9 bulbs are typically low voltage halogen or LED bulbs that do not require a transformer. However, it's important to check the specifications of the specific bulb and chandelier to ensure compatibility.
ummm...4(?) is this a trick question?
To determine how many 3-watt bulbs can be powered by a 500VA transformer, divide the VA rating of the transformer by the wattage per bulb: 500VA / 3W = 166.66 bulbs. In this case, you can power approximately 166 bulbs with a 500VA transformer.
To determine how many 12-volt, 50-watt bulbs can be used on a 100 VA transformer, first convert the transformer's capacity from VA to watts, which is effectively the same for resistive loads (100 watts in this case). Each 50-watt bulb requires 50 watts, so you can divide the total available watts by the wattage of one bulb: 100 watts ÷ 50 watts/bulb = 2 bulbs. Therefore, you can use 2 of the 12-volt, 50-watt bulbs on a 100 VA transformer.
No, the 300 watt low voltage transformer will not be able to power 150 watts of bulbs 250 feet away. The voltage drop over the distance will be significant and may not provide sufficient power to light up the bulbs effectively. It is recommended to use a higher wattage transformer or install additional transformers closer to the bulbs.
No, G9 bulbs are typically low voltage halogen or LED bulbs that do not require a transformer. However, it's important to check the specifications of the specific bulb and chandelier to ensure compatibility.
None.
ummm...4(?) is this a trick question?
How do you Winding of inverter 100 watt transformer?Read more: How_do_you_Winding_of_inverter_100_watt_transformer
we can use 12 no's
Watts are power. If the lights were mostly or totally switched off, you'd have a circuit generating 600W of heat somewhere if the transformer still took 600W, not only that, but when you switched on, the 600W that the transformer was consuming, would not disappear, so the total drain would be 1.2kW. ---- Don't understand the above answer. The 600 watts on the transformer nameplate is the maximum amount of wattage that the transformer can produce and still be within its safety limits. It doesn't draw that wattage all the time. If you had two 50 watt lamps connected to the transformer then the transformer has the capacity of 500 watts left. The transformer will only produce the wattage that the load requests. The transformer has the ability to supply twelve 50 watt bulbs. 12 x 50 = 600. Any more bulbs than 12 and the transformer is in an overload condition.
The recommended type of 60 watt bulbs for use with a candelabra are candelabra bulbs.
3 bulb can be connected..............................
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