P=EI. MEANS POWER EQUALS VOLTAGE TIME AMPERAGE .9 X 3.7 = 3.33 WATTS.
3.33 WATTS FOR ONE HOUR AT 3.7 volts
It is 2.68 amp-hours multiplied by 3.7 volts, 9.9 watt-hours.
Depends on the volts - for example 9000 mAh x 5 volts = 45 watt hours
2300 watt-hours for every hour it operates. Watts x Hours = watt hours.
Running a power of 60 watts for one hour uses 60 watt-hours of energy. If you run it for two hours, that would be 120 watt-hours. Running a 60 watt appliance for 16 hours and 20 minutes is 1000 watt-hours, or 1 kWh, also called one Unit.
-9900
You multiply the watts by the seconds. 10 hours is 36,000 seconds, so the watt seconds is 60 x 36,000 Answer 2,160,000 watt-seconds You can also say the bulb uses 60 x 10 or 600 watt-hours.
Per hour the answer is 400 watt-hours or 0.4 kW-hours (or units).
2300 watt-hours for every hour it operates. Watts x Hours = watt hours.
Running a power of 60 watts for one hour uses 60 watt-hours of energy. If you run it for two hours, that would be 120 watt-hours. Running a 60 watt appliance for 16 hours and 20 minutes is 1000 watt-hours, or 1 kWh, also called one Unit.
It depends on the wattage, Hours = Watt - Hours / Watts
1 kilowatt = 1,000 watts 6 kilowatts = 6,000 watts 6 kilowatt-hours = 6,000 watt-hours
-9900
400 watt hours = 1,364.86 BTU
5 days 12 hours = 5.5 days19,800 / 5.5 = 3,600 watt-hours per day = 150 watts
You multiply the watts by the seconds. 10 hours is 36,000 seconds, so the watt seconds is 60 x 36,000 Answer 2,160,000 watt-seconds You can also say the bulb uses 60 x 10 or 600 watt-hours.
You multiply the number of watts by the number of hours those watts are used, resulting in watt-hours. Electrical usage is often billed in increments of kilo-watt-hours, or how many thousands of watt-hours were used during the billing period.
It depends on how long it takes. 1.05 kWh is 1050 watt-hours, and that could be 1 watt for 1050 hours, or 1050 watts for 1 hour, or anything in between.
6 watt hours
Per hour the answer is 400 watt-hours or 0.4 kW-hours (or units).