To calculate the amperage needed to run a 1000-watt hair dryer, you can use the formula: Amperes = Watts / Volts. Assuming a standard voltage of 120V for household outlets in the US, the amperage needed to run a 1000-watt hair dryer would be approximately 8.33 amps. To convert this to milliamps, you would multiply by 1000, so approximately 8333 milliamps would be needed.
To convert 5.0 amps to milliamps, you would multiply by 1000, since there are 1000 milliamps in 1 amp. So, 5.0 amps would be equal to 5000 milliamps.
A 100 watt bulb typically draws around 833 milliamps (mA) of current. This calculation is done using Ohm's Law formula: Current (I) = Power (P) / Voltage (V). With a standard 120V power source, a 100W bulb would draw approximately 833mA.
ma stands for milliamp. The prefix 'milli is equivalent to .001 So 1 amp would be 1000 milliamps and 20 milliamps would be .02 amps
To measure 250 milliamps alternating current on the Fluke 8025A, you would typically select the 400mA AC current range. This range allows you to measure currents up to 400mA, which covers your required measurement of 250 milliamps.
Yes you can if the dryer uses 30 amps or less. A cord can always be bigger than needed, it can take 30 amps just as easily as its upper limit of 40 amps. If you were starting out you would buy a 30 amp cord because a 40 amp one would cost more.
The answer depends on the units which were used for 0.026. For example, 0.026 milliamps would be 0.026 milliamps while 0.026 microamps would be 0.000026 milliamps.
To convert 5.0 amps to milliamps, you would multiply by 1000, since there are 1000 milliamps in 1 amp. So, 5.0 amps would be equal to 5000 milliamps.
3 or 4 residential size solar panels.
In your question .2 amps is equal to 200 mAMilliamp are dangerousLess than 1/2 milliamp no sensation1/2 to 2 milliamps Threshold of perception2 to 10 milliamps muscular contraction5 to 25 milliamps painful shock (may not be able to let go)Over 25 milliamps Could be violent muscular contraction50 to 100 milliamps Ventricular fibrillationover 100 paralysis of breathing.
In your question .2 amps is equal to 200 mAMilliamp are dangerousLess than 1/2 milliamp no sensation1/2 to 2 milliamps Threshold of perception2 to 10 milliamps muscular contraction5 to 25 milliamps painful shock (may not be able to let go)Over 25 milliamps Could be violent muscular contraction50 to 100 milliamps Ventricular fibrillationover 100 paralysis of breathing.
A 100 watt bulb typically draws around 833 milliamps (mA) of current. This calculation is done using Ohm's Law formula: Current (I) = Power (P) / Voltage (V). With a standard 120V power source, a 100W bulb would draw approximately 833mA.
The only practical way to do that would be to sell the electric clothes dryer and use the proceeds toward purchase of a gas dryer. Even if it was possible to convert the dryer the cost would be prohibitive versus a new dryer. If you mean converting the building, then you would need to have natural gas plumbing installed, and you would need an outlet that matches the voltage of the new dryer.
Only for a very tiny house with GIANT potatoes. You would only get a few milliamps out of a potato, so 100 potatoes are a few hundred milliamps. Just enough to light up a few LEDs.
No. Volts is the "pressure" of the electricity. If a single 3.6v led required 20 milliamps (amps is the "amount" of electricity) you would need to supply two of them with 40 milliamps but at 3.6 volts.
.12 Ampers Just move the decimal point 3 places to the left. So if for example you wanted to know what 20 milliamps was in amps go 3 decimal points to the left and you would get .02
There is a thousand milliamps in an amp. So it would be 5.4AH.
To find out the cost of operating 60 1000watt Metal Halide lamps for 10 hours, you multiply the amount of power (in kilowatts) by time and hours. That will give you kWh (kilowatt hours), then you find out how much your power costs in $/kWh, then divide the kilowatt hours you are using by the cost ($/kWh).