The energy unit is not watts per hour, but watts times hour, simply called watt-hours.
One BTU is equal to about 1055 Joules or Watt-seconds; that is about 0.293 watt-hours. Actually there are different definitions of the BTU.
The energy unit is not watts per hour, but watts times hour, simply called watt-hours.
One BTU is equal to about 1055 Joules or Watt-seconds; that is about 0.293 watt-hours. Actually there are different definitions of the BTU.
The energy unit is not watts per hour, but watts times hour, simply called watt-hours.
One BTU is equal to about 1055 Joules or Watt-seconds; that is about 0.293 watt-hours. Actually there are different definitions of the BTU.
The energy unit is not watts per hour, but watts times hour, simply called watt-hours.
One BTU is equal to about 1055 Joules or Watt-seconds; that is about 0.293 watt-hours. Actually there are different definitions of the BTU.
60 000 thousand btus
Depends on the BTUs of the heater.
A gallon of kerosene typically contains about 135,000 BTUs of energy. At a burn rate of 30,000 BTUs per hour, a gallon of kerosene would last approximately 4.5 hours (135,000 BTUs ÷ 30,000 BTUs/hour = 4.5 hours). However, actual burn time can vary based on factors such as efficiency and burner design.
One kilometre is equal to 1000 x 1000 = 1000000 millimetres. Therefore, 180 kilometres per second is equal to 180 x 1000000 = 180000000 millimetres per second. There are 3600 seconds in one hour. Therefore, 180000000 millimetres per second is equal to 180000000 x 3600 = 648000000000 millimetres per hour.
Usually power companies charge per unit which is 1kilowatt hour. That is if a gadget is rated 1000 watts and is kept on for 1 hour, the electric company will charge for one unit. In your case they will charge for 4.8 units at the going rate.
To convert watts to BTUs (British Thermal Units), you can use the formula: 1 watt is approximately equal to 3.412 BTUs per hour. So, if you have a certain number of watts, you can multiply that by 3.412 to convert it to BTUs per hour.
To convert electric watts to BTU heat gain, use the formula: 1 watt is approximately equal to 3.412 BTUs per hour. So, to calculate the BTU heat gain, multiply the electric watts by 3.412. For example, if you have a device that consumes 1000 watts, the approximate BTU heat gain would be 3412 BTUs per hour.
1000
1 kilowatt (kW) is equal to 1 kilowatt-hour (kWh) when used continuously for one hour. So, if you use a 1 kW appliance for one hour, it will consume 1 kWh of electricity.
KWH stands for kilowatt hour, meaning a thousand watts used for an hour. In terms of, for example, the familiar 60 watt light bulb, you would need (just under) 17 such light bulbs operating for an hour to consume 1 KWH.
1000. A megawatt-hour is the energy you'd get with a megawatt of power for 1 hour. Energy = power * time. It's important to note that it's 'megawatt hour' and not megawatt/hour (ie. it's not megawatt per hour).A gigawatt has 1000 times the power of a megawatt. Thus, since the time is the same (both 1 hour), a gigawatt-hour = 1000 megawatt hours.
A 1000 watt device operated continusouly for 1 hour would equal 1 Kwh.
1,000 watts
1 kilowatt hour means 1000 watts for 3600 seconds, so a kWh equals 3.6 million Joules.
Hi well kilo means 1000 so thtas 1000 watts per hour
Kilo = 1000. Watts the produce of Amps x Volts. One hour is not divided up into kilowatt hours, it is the use of 1000 watts over a period of one hour.
A 1000-watt high-pressure sodium lamp uses 1000 watts of power per hour, also known as 1 kilowatt-hour (kWh). This means that if you run the lamp for 1 hour, it will consume 1 kWh of energy.