A 120 volt table lamp with a 75 watt bulb will pull 0.625 amps. With a 100 watt bulb it will pull 0.833 amps. And with a modern fluorescent 13 watt bulb it will pull 0.108 amps.
Yes. It just won't be as bright.
A 1450 watt coffee maker will use around 13 amps at 110 volts.
It is drawing .06 amps.
The transformer itself does not pull current. Whatever you connect to the transformer pulls current. Whatever the output voltage of the transformer is, divide that into 600 and you get maximum current possible without burning up the transformer. At 24V that's 25 amps.
A 120 volt table lamp with a 75 watt bulb will pull 0.625 amps. With a 100 watt bulb it will pull 0.833 amps. And with a modern fluorescent 13 watt bulb it will pull 0.108 amps.
Approximately 15 lumens per watt for halogen, so 300 lumens.
A 230 watt linear halogen lamp should be replaced by a 230 watt linear halogen lamp if the same brightness is required.
It depends on how many Amps (current) are applied to the voltage. Watt = Volts x Amps. e.g. 12 volts @ 5 amps = 60 watts
Halogen bulbs are about 30% more efficient so a 70 watt halogen does the job.
A 60 watt bulb at 12 volts will pull 5 amps of current.
Yes. It just won't be as bright.
Power(Watts) = I (Amps) x E(Voltage) PIE rule. so 1000 = I x 240. 1000/240 = 4.16667 amps.
It depends on the voltage; which depends on the country. If you know the voltage, divide the wattage by the voltage, the result is the amperage.
From halogen to LED you can divide by 4 to find the equivalent. Therefore an 80 watt LED would do the job.
A 14 watt LED will give you the equal output of a 50 watt halogen.
A 1450 watt coffee maker will use around 13 amps at 110 volts.