For a device the requires 2 amperes to run, a current of 1 ampere will not be enough. Such a current cannot be able to power all the components of the device to make them function properly.
The answer is volt.
fractions equivale nt to 1/4 = 2/8, 3/12, 4/20, ...
To prevent the discharge of untreated waste from a Type 1 or Type 2 marine sanitation device (MSD), ensure that the device is regularly inspected and maintained according to manufacturer guidelines. Always monitor and verify that the device is functioning correctly before use, and utilize the MSD only in compliance with local regulations regarding waste disposal. Additionally, ensure that the device is properly connected and that any discharge valves are securely closed when not in use. Lastly, educate all crew members on the proper operation and importance of the MSD to prevent accidental discharges.
To increase (or decrease) the current (ampere) of a supply several methods can be used: 1) For an AC supply use a transfromer. 2) For a DC supply use a DC regulator, or switched mode regulator In either case the conservation of energy law must be maintained. Meaning you get as much energy out as you put in. In other words if you increase the current the voltage must decrease but the power will stay the same (for a perfect conversion).
Use the symbols "I" for current, "E" for voltage, "R" for resistance.One of the forms in which Ohm's Law can be written is:I = E / R.Applying this equation to the question:I = 5 / 8 = 0.625 Ampere = 625 milliamperes
yes you can.
The supply device must have an output voltage that matches that of the load, and a current rating that exceeds that of the load. So you cannot use a load that draws 2 A from a supply device that is rated at only 1 A.
The UPS should be rated in Amps per Hour. Just divide that number by the current requirements of the device connected to the UPS. Say that the UPS is rated for 10 Ampere Hours and your device draws 2 amps. You could run the device for about 5 hours.
it is a 2 in 1 device
The answer is volt.
Milliampere-hour (mAh) is a unit of electric charge, while ampere (A) is a unit of electric current. The relationship between them is that 1 Ampere = 1000 milliamperes. So, 1 ampere-hour (Ah) equals 1000 milliampere-hours (mAh).
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1. If you think to volume: litre (L) 2. In electrical engineering: coulomb or ampere-hour 3. If you mean capacitance (electronics), the unit is a Farad.
(from left to right) 1. 8 ampere turn signals, speedometer warning lights, fuel gauge 2. 8 ampere windshield wipers, brake warning light, automatic stick shift warning lights, rear window defroster switch 3. 8 ampere brake lights, horn 4. 8 ampere emergency flasher 5. 8 ampere unassigned 6. 8 ampere interior light, ignition buzzer 7. 8 ampere left high beam, high beam warning light 8. 8 ampere right high beam 9. 16 ampere left low beam 10. 8 ampere right low beam 11. 16 ampere left tail light 12. 8 ampere right tail light, side marker lights, license plate light http://www.thesamba.com/vw/archives/info/wiring/bug_7172_fuses.jpg
The 2 units for measuring current are: Ampere Milliampere
fractions equivale nt to 1/4 = 2/8, 3/12, 4/20, ...
Heat=i^2*R*t=10*60=600 joules