it has 3 horsepower witch makes it do 10 kw of work
To calculate the work done by a 1 kW motor in one minute, we can use the formula: [ \text{Work} = \text{Power} \times \text{Time} ] Given that power is 1 kW (or 1000 watts) and time is 1 minute (or 60 seconds), we can substitute the values: [ \text{Work} = 1000 , \text{W} \times 60 , \text{s} = 60000 , \text{J} ] Thus, a 1 kW motor does 60,000 joules of work in one minute.
Typical motor and belt efficiencies: * Motor 1kW - 0.4 * Motor 10 kW - 0.87 * Motor 100 kW - 0.92 * Belt 1 kW - 0.78 * Belt 10 kW - 0.88 * Belt 100 kW - 0.93Depending on the motors input , we can measure the voltage consumed by a ceiling fan.Normally , household fans consume 200 - 400 watts of energy.hope this helps =)
A 3 heat switch enables two elements for example of 1kw, to give out 100% power, 50% power and finally 25%. That equates to two 1kw elements in parallel. (100%) One 1kw element on power only. (50%) And finally both 1kw elements in series. (25%)
1Kw=1000watt
1kw electric power
One kilowatt is equal to 1000 watts or 1000 joules per second: 1kW = 1000W = 1000J/s
1kW = 1.341 hp
1kW is 1.341hp
Electric rating of 1Kw
1kW : 3,412.142 BTU/hr
If there is no thermostat, it makes no difference. IE 1kw=1kw! If there is a thermostat, go for Oil filled. The Oil retains the heat much better so will continue to give off warmth whilst the thermostat is allowed to switch off the power more often.
1 kW is equivalent to approximately 3.412 MBH (thousand British thermal units per hour).