How many watts are in a BTU?
1 BTU is equal to 0.293W. That means that 24,000 BTU is equal to 24,000 BTU * 0.293 watts/BTU = 81911 watts. Of course, we’re talking about BTU/hr. Both watts and BTU/hr are a unit of power….BTU To Watts Conversion Table.
| BTU: | Watts: |
|---|---|
| 84,000 BTU to watts: | 24,619 watts |
How much is 1kg Watt?
A thousand (1000) watts make one kilowatt. So if any appliance is rated as 1.2 kW then it means that it consumes electricity at a rate of 1200 W.
How many BTU is 1000 watts?
3,412 BTU
Watts-To-BTU Conversion Chart For 500W To 20,000W
| Watts: | BTU: |
|---|---|
| How many BTU is 500 watts: | 1,705 BTU |
| How many BTU is 1,000 watts: | 3,412 BTU |
| How many BTU is 1,500 watts: | 5,118 BTU |
| How many BTU is 2,000 watts: | 6,824 BTU |
How do you convert kilograms to watts?
Conversion chart – kilograms force meter/second to watts
- kilogram metre per second to watts = 9.81 W.
- kilograms force meter/second to watts = 19.61 W.
- kilograms force meter/second to watts = 29.42 W.
- kilograms force meter/second to watts = 39.23 W.
- kilograms force meter/second to watts = 49.03 W.
How do you convert kg to watts?
If you are used to measuring your weight in pounds (lb.), then take your weight in pounds and divide by 2.2- and that will be your weight in kilograms. Then take your average power for a 60-minute all-out effort and divide that by your weight in kilograms. This result is your watts per kilogram ratio.
How do you calculate BTU from flow and temperature?
You can calculate BTU heating or cooling requirements for your process by understanding your application. Some common BTU calculating formulas are shown below. BTU = Flow Rate In GPM (of water) x (Temperature Leaving Process – Temperature Entering Process) x 500.4*Formula changes with fluids others than straight water.
How many kg are in a Watt?
To work out your power-to-weight ratio figure, simply divide your maximum power output (in watts) by your body mass in kilograms (kg). For example, an 80kg rider with a maximum sustainable power output of 280 watts has a power-to-weight ratio of 3.5 watts per kilo (commonly abbreviated as 3.5W/kg or 3.5W. kg-1).