I kW = 1000 W
100 / 1000 = 0.1 So a 100 W bulb uses 0.1 kW
For one hour that's 0.1 kWh
A 100 watt bulb uses 0.1 kilowatts, all the time it is switched on.
In 1 hour it uses 0.1 kWh (0.1 units), in 10 hours it uses 1 kWh (1 Unit), etc.
A 32 watt bulb uses 32 watt-hours, or 0.032 kWh, every hour it is used.
A Kilowatt hour is 1000 watts per hour. A 50 watt bulb will use just 50 watts per hour. Therefore over 12 hours the 50 watt bulb will use 50*12 watts = 600 watts or 0.6 of a kilowatt hour.
2300 watt-hours for every hour it operates. Watts x Hours = watt hours.
The bulb's power, 75 watts, is the power it uses continuously all the time it is switched on. The energy it uses can be measured in watt-seconds (Joules) or in watt-hours. A 75 watt bulb uses 75 watt-hours each hour, which is 0.075 kilowatt-hour.
That is something that would be hard to determine because there are too many options. There are 4 top burners. There are two elements in the oven. The only way to get a maximum would be all of the burners on and both the oven broiler element on AND the bottom element. But that still won't work because they probably could not be run on high at the same time and that would be necessary to calculate what you want.
1 billion
more than a100
8 and 1/3
10000 divided by 220 for a resistive load.
100 yards = 300.000914402758 feet
5-6 litres of blood.
100*(100-3)/2 = 4850
85-200
100 liters is 22 Imperial gallons.
(a)100
A 32 watt bulb uses 32 watt-hours, or 0.032 kWh, every hour it is used.
"A standard light bulb I would consider to be a 60 watt light bulb, and kilowatts are the amount of usage in a light bulb. From my research I have found that a standard 60 watt light bulb uses approximately 1.44 Kilowatts per hour."