60 Watt 120 Volt is: W/V (60/120), Equals 0.5 Ampere.
Assuming resistive load, 0.125 amps.
Amps (current) times volts = watts. so watts divided by volts = current (Amps). i.e.- 0.5 Amps.
if you have 160 volts how much would that be in watts
There really is no fixed answer. Amps are a measure of current, while watts are a measure of work. To get the answer, you need to know either how many volts you are dealing with, or how much resistance; the relationship is W= V*I (where I is the current in amps). That said, for a typical 120 volt household current, the number of watts would be 180.
That's like asking: How much time does it take to go 15 MPH? It depends on at least one other factor. In your case, you cannot know watts unless you know voltage and current or resistance (from which you could derive current, because E = I x R). Once you know the current drop across the 15 volts, you can multiply I x E and get P, i.e., amps times volts equals watts.
Assuming resistive load, 0.125 amps.
Watts = Amps x volts. What is the current draw and voltage of the calculator.
240 watts at 120 volts requires 2 amperes. Power = voltage * current
To get Watts you multiply Amps x Volts. So in your case you just do some reverse math and divide the Watts by the volts and you get your amperage. so 100/120=0.83 Amps
Watts = Amps * Volts Watts = 20 amps * 100 Volts Watts = 2000 2,000 Watts or 2k Watts
Watts = Amps * Volts Watts = 20 amps * 100 Volts Watts = 2000 2,000 Watts or 2k Watts
Amps (current) times volts = watts. so watts divided by volts = current (Amps). i.e.- 0.5 Amps.
Often CFLs are marked with the current. If not, find out the watts and the volts. Divide the watts by the volts to find the current, then double the current because the power factor could be as low as 0.5 with CFLs. That will tell you a safe value to use for the current when planning the wiring.
if you have 160 volts how much would that be in watts
There really is no fixed answer. Amps are a measure of current, while watts are a measure of work. To get the answer, you need to know either how many volts you are dealing with, or how much resistance; the relationship is W= V*I (where I is the current in amps). That said, for a typical 120 volt household current, the number of watts would be 180.
That's like asking: How much time does it take to go 15 MPH? It depends on at least one other factor. In your case, you cannot know watts unless you know voltage and current or resistance (from which you could derive current, because E = I x R). Once you know the current drop across the 15 volts, you can multiply I x E and get P, i.e., amps times volts equals watts.
The heat generated by an electric current is in watts, Current x volts. So current alone is not enough to define it. By Ohms Law, Volts = Current x Resistance, so another way of expressing watts is (Current squared) x Resistance. If you know the current andthe resistance you can get the wattage, which will give you the heat generated.