Yes, but it takes one more character (a space) to write it the first way.
no should be #6 which equals 50 amps
Typical residential rated current for 10 AWG is 30 amps. The 100 ft. Increases resistance which will cause a small voltage drop, but this isn't an issue here.
3 + -4 is the same as -4 + 3. (In the same way that 1 + 2 is the same as 2 + 1).
The formula you are looking for is Watts = Amps x Volts. Amps = Watts/Volts. This comes to 4 amps load. Minimum size fuse would be 5 amps.
3 and 3/5 is the same as 18/5.
Depends on the model Most are rated 6amps. However they draw only about 3amps
3 ohms. 9 volts across a 3 ohm resistor becomes 9/3 or 3 amps.
No, Your original adaptor has an output of 3 amps or 3000 ma. As you can see, the one you want to use for a replacement adaptor only has 1000 ma output, one third of the current capacity that you need.
To find your amps, divide your volt amps listed by the voltage you are using (and the device is rated for).Power in watts = Volts X AmpsVolts equals amps X resistance. All of these formulas can be transposed to find the missing element.If something is listed as 360 Volt amps and the voltage used is 120 volts it draws 3amps. So if the same device was used on a 240 volt circuit it would draw 1.5 amps. the power company charges for power (watts) so the volt amps are listed on the device and costs you the same regardless of the voltage used.If the same thing was designed for 12 volts it would draw 30 ampsThe current in amps is equal to the apparent power in volt-amps divided by the voltage in volts:A = VA / V
the simplest solution is by connecting two 120v 3amps heater in series , the same can be used directly on 240v. However the current drawn will still be 3 amps & Not 1.5 amps. The heater output power will be double that of a single heater running on 120v. ( or equvalent to two heaters operating on 120v. supply ) A more expensive method is to use a stepdown transformer which can be powered on 240v & connect the heater on the transformer 120v side. this method will consume approx. 1.5 amps from the 240v supply.
Yes, the amps stay the same but the voltage doubles. If you connect in parallel the volts stay the same and the amps double.
3 amps
6 amps.
The ohms will usually stay the same unless the Amps are somehow effecting the temperature. The Amps will always change with the volts.
Could be zero, could be 1000 amps. Amps are not the same thing as volts.
It uses 2 amps
They can be in the same box. Amps are measured in series and volts in parallel.