Gold Medal winners in rowing or triathlon would probably be the best to power a small motor..
it is used for small power application ...
Have the Arduino control a relay that connects an external power source to the motor.
If the power factor is 0.7 the reactive power equals the real power, so the capacitor should be 1.5 kVAr. That is a reasonable estimate for a small induction motor.
Battery powered cars use a small battery to power an electric motor to drive the wheels.
The short answer is - one horse power, or 746 watts. But machines do not have 100% conversion efficiency so the electric power taken by a motor is more than the mechanical power output. Electric motors are made more efficient at the higher powers, so while a 1 HP motor might have an efficiency of 80%, a 10 HP motor might have an efficiency of 90% and a 100 Hp motor 97%. This is a matter of design because the higher-power motor needs to waste less of the total power, so it is given thicker wire and a more massive magnetic core (proportional to power) than a small motor.
Normally you would specify a motor to do a particular job by the mechanical power output you require.A motor takes electrical power "in" and produces mechanical power "out".Read whatever it says on the motor's rating plate or user-guide.The mechanical energy output of a motor is measured in various units around the world: for example in watts, horsepower (or brake horsepower).Another answerThe above answer is quite correct in stating that a motor's output power is its rated power as it's a guide to how much load it can drive.Power is simply a rate - the rate of transfer of energy. The horsepower is the Imperial unit of power, whereas the watt is the SI unit of power. In the US the output power of a motor is typically still measured in horsepower whereas in Europe the use of horsepower is almost obsolete, except for small "fractional horsepower" electric motors, and both the input power and the output power of a motor are measured in watts or, more likely, kilowatts.
hot motor are connected in star because it deals with the voltage in case small Power system, which the voltz could either drop or rise.
yeahhii thinkk soo...!!
300 horse power. 300 hp started in 1992 with the new LT1 motor
Induction motors are designed for a certain power. If the power demand is lower than that, you still have to setup the magnetic fields as if you were going to supply that maximum power. As a result, the no-load power factor of an induction motor is quite small, i.e. poor.
The 400 Chevy small block motor should have approximately 390 horse power. It should have 427 foot pounds of torque.
it depends if you want speed or power, what cog and chain you have and how big they are (small on motor and big on axel gives you lots or acceleration and power where big on motor and small on axel will give you a very high top speed (if you can get it to move))