200ma is .200 amps or .2 amps
There are, 2000/1000 = ,amps in 2000 milliamps. For the math challenged that is 2 amps.
It varies depending on factors such as individual health, duration of exposure, and voltage. In general, it can take as little as 0.1 amps to cause death in certain conditions. Ultimately, it's the combination of current, duration, and path that determines the potential harmful effects of an electric shock.
To convert milliamperes (mA) to watts, you need to know the voltage at which the current is flowing. The formula to calculate power (in watts) is P = I x V, where P is power in watts, I is current in amperes, and V is voltage in volts. Without knowing the voltage, it is not possible to directly convert 200 mA to watts.
To convert high voltage (HV) amps to low voltage (LV) amps, you can use the formula: HV amps = LV amps x (LV voltage / HV voltage). By rearranging the formula, you can calculate LV amps by dividing HV amps by the ratio of HV voltage to LV voltage.
3000 milliamps is equal to 3 amps. To convert milliamps to amps, you divide by 1000.
There are, 2000/1000 = ,amps in 2000 milliamps. For the math challenged that is 2 amps.
No No No. If your supply can give .2A, and you need 2 Amps, your supply's not going to cut it.
Yes, the maximum that the adapter can deliver is 1300 mA or 1.3 amps. The maximum that the device will draw is 200 mA or .2 of an amp.
YES!If you have a TV antenna amplifier rated at 12 Volts and 200 milliamps, you can use any power supply that will deliver at least 200 milliamps at 12 Volts. The important item is to keep the 12 volts at 12 volts. note: 200 milliamps is 0.2 amps. Even if you had a power supply that delivered 2000 amps at 12 volts you would be OK as it will only draw the 200ma that it needs.
18 Volts.
No. The adaptor will overheat.
No, 200mA is not the same as kilohms.Amperes is a unit of current flow. Ohms is a unit of resistance. Other than being related by Ohm's law - Voltage = amperes x ohms - the two units are not the same.
It varies depending on factors such as individual health, duration of exposure, and voltage. In general, it can take as little as 0.1 amps to cause death in certain conditions. Ultimately, it's the combination of current, duration, and path that determines the potential harmful effects of an electric shock.
Yes. The current rating should be the same or greater than the original. This means the adapter can supply up to 500mA; In your case it only needs to supply 200mA, so it is more than up to the job.
DVD players are low energy users. Although they may show a peak current of up to 1 amp as they are turned on, while they are running, they are typically using between 20 - 35 Watts. That translates to a current draw of about 100mA from a 230 Volt supply and 200mA from a 110V supply.
Yes. Yes, you can replace a transformer with one that has a higher current rating. The load on the transformer should be less than 200mA because presumably that is what the circuit was designed for. Since the current through the transformer should be less than 200mA, the 500mA transformer will not be damaged. The opposite is not true. You should not replace a 200mA rated transformer with a 100mA transformer, for example. If the current exceeds 100mA, the transformer could fry.
Multiply the vots by the amps to find the volt-amps. Or divide the volt-amps by the voltage to find the amps.