This has no physical meaning. The correct unit for power is the watt (not watt per hour).
Volts per hour is an invalid statement. You may have meant Watts per Hour.
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.
Productivity
Yes, usually. 100 watts equates to about 341.21 BTU per hour.
The amount of watts per hour that an exercise bike can generate varies depending on the bike's resistance level and the user's effort. Typically, a moderately intense workout can produce around 100 to 300 watts, while highly trained athletes can generate 400 watts or more. However, it's important to note that watts measure power (work done per unit time), not energy, so a watt-hour (Wh) would depend on the duration of the workout. For example, if an athlete generates 300 watts for one hour, they would produce 300 watt-hours of energy.
The number of calories burned while cycling can be calculated by converting the power output in watts to calories per hour. This conversion is typically around 4 calories per watt per hour.
Watts measure the rate at which energy is generated or consumed per second. Energy output is the total amount of energy produced or consumed over a period of time. The relationship is that the total energy output is equal to the power (in watts) multiplied by the time duration.
about 15 per hour its not a lot
3/4 of watts
100 watts
To convert watts to kilowatts, you divide by 1,000. Therefore, 500 watts is equal to 0.5 kilowatts. To convert minutes to hours, you divide by 60. So, 500 watts per minute is equivalent to 0.5 kilowatts per 60 minutes, or 0.5/60 = 0.00833 kilowatts per hour.
2.3 kw per hour on a 110-120 volt circuit.
There is none. Electricity and miles per hour do not relate.
To convert kilocalories per hour to watts, divide by 860: 100 kilocalories per hour / 860 = 0.1163 watts. So, the college student's rate of energy production is approximately 0.1163 watts.
46.6 watts an hour.
Volts per hour is an invalid statement. You may have meant Watts per Hour.
The number of watts used per hour is defined as a watt-hour or "wh". Electricity is normally billed as kilowatt hours or 1,000 watts per hour. Your electric bill will give you KWH number for the month so you could divide this by (24 x 30) to get an hourly average. As an example of the wide range of usage I have a town house rental that used 20 KWH in a month, and another large residence that used 2,900 KWH in a month. In this case the smaller house averaged 27.7 watts per hour and the larger house 4028 watts per hour.This answer is incorrect. A watt hour is not 'the number of watts used per hour'. It is the number of watts times the number of hours. There is no such thing as 'watts per hour'.