about 3 or 4
2 amps
53000Amps
It depends on the motor. The motor determines the amperage. Should be written on the well pump itself.
It depends on the size and type of the motor being started.
You asked the wrong question. You need to know how many amps the motor uses. Then you can multiply amps times volts and get watts. Then you can multiply watts by hours and get watt hours. (For house electricity you pay for kilowatt hours.) A kilowatt is 1,000 watts.
The code book states that the motor will draw 1.8 amps. <<>> 1 amp
A 15 amp circut will be fine.
The door assembly must be able to accommodate the apparatus of the garage door opener. Many older homes require a replacement garage door before an opener can be installed. You must also have clearance between the rolled up door and the ceiling to accommodate the door opener motor.
Many individual never thought of the work our garage door does - lifting and closing a large door every day, over and over again.. The fact is, your garage door opener really doesn't do much work, because of a physics helper, the spring! Springs are utilized as the door is lowered, and the springs are stretched out (the motor literally pushes the garage door down). When it is time to lift the door, the springs do 95% of the work as they recoil and pull the door back up, leaving the garage door motor to do little more than wind up the loose cable or chain. This is why most garage door openers are rated at only 1/2 to 1 horse power - it doesn't take much power to lift up a garage door that is being pulled up by stretched springs.
The garage door track's slider is attached to the door with a pair or adjustable arms, and the door is set on guide rails that use pulley wheels. Many garage doors are able to be opened with a remote control.
53000Amps
That depends entirely upon the type of motor. A car starting motor may take a few hundred Amps for the short period.
23
To answer this question the voltage of the motor must be stated.
Depends on how big the motor is. A stronger motor will draw more amps then a weaker or less efficient motor. For example a wiper motor draws far less then a starter motor.
I have a single phase induction motor. It draws 8 amps on start up and climbs to 14-15 amps when I put a load on it. When I don't have a load it runs at 1 and climbs to 2-3 amps. It is normal operation for this motor to run at the lower number of amps with a load. But I don't know what is wrong.
Depends on the voltage.
Watts = Volts times Amps. Therefore, if the voltage was 220 volts, the motor would draw 500 amps. If the voltage was 4,000 volts, the motor would draw 27.5 amps. The voltages for large powerful motors tend to be relatively high, for example in the 380 Volts to 11,500 Volts range.