No
A 1200 RPM motor is typically designed to operate at a specific synchronous speed determined by the supply frequency and the number of poles. If the motor is spinning at 1600 RPM while the supply voltage and frequency are correct, it may indicate that the motor is experiencing a phenomenon called "slip," which is reduced in this case, possibly due to a mechanical load being lighter than expected or a change in rotor design. Additionally, if the motor is a variable speed design or equipped with a drive that alters its speed characteristics, it could also be intentionally running at a higher RPM.
spin rate depends on the RPM of the entire device turning it. If both are turning at the same RPM, they both spin the same speed.
The number of poles in a motor will determine the speed of that motor. n=speed, f=frequency, p=# of poles. n=(120f)/p So a 6 pole motor is rated to operate at n=(120*60)/6=1200 rpm. assuming 60Hz frequency Or a 8 pole motor is rated to operate at 900 rpm. Of course due to slip the rotor will always spin slightly slower.
The formula for RPM is ; RPM = Hz x (120 (constant)) divided by the # of poles. Number of poles a motor has; # of poles = Hz x (120 (constant)) / RPM.
You should get a 3 phase generator that has 8-12 KW. If you had to you could use a 3 phase 5.5-6 kw but it may wear out faster because you are using 100% power. The 3 phase gen will allow you to select 480 volt which can be converted to 380 for the mixer. The rpm of the motor in irrelevant because the generator is the power source in this situation, once the gen powers the motor it will produce 1140 to power the mixer.
Materials for producing 2900 rpm motor is less than 1450 rpm one
No
you should raise the rpm of the motor (not too much though) and when at the light, put the car in neutral. this reduces the drivetrain resistance, allowing the motor to spin more freely
A synchronous motor will spin at the system frequency. 60 Hz translates into 60*60 = 3600 direction changes per minute. If this is a two pole motor (one north and one south), it will spin 1 rotation per direction change. If it is a four pole motor (two north and two south), it will spin 1/2 rotation per direction change. If this is an induction motor, it will spin at a frequency slightly less than an equivalent synchronous motor; this frequency difference is referred to as slip.
Relationship between motor rpm and no of poles
A 1200 RPM motor is typically designed to operate at a specific synchronous speed determined by the supply frequency and the number of poles. If the motor is spinning at 1600 RPM while the supply voltage and frequency are correct, it may indicate that the motor is experiencing a phenomenon called "slip," which is reduced in this case, possibly due to a mechanical load being lighter than expected or a change in rotor design. Additionally, if the motor is a variable speed design or equipped with a drive that alters its speed characteristics, it could also be intentionally running at a higher RPM.
Ranges from 250 to 450 rpm.. If there is need to increase the speed then the rpm is eventually increased as per the need
spin rate depends on the RPM of the entire device turning it. If both are turning at the same RPM, they both spin the same speed.
The number of poles in a motor will determine the speed of that motor. n=speed, f=frequency, p=# of poles. n=(120f)/p So a 6 pole motor is rated to operate at n=(120*60)/6=1200 rpm. assuming 60Hz frequency Or a 8 pole motor is rated to operate at 900 rpm. Of course due to slip the rotor will always spin slightly slower.
I believe redline is 5,000 RPM.
One way would be to hook it up to a supply (by itself, with no load) and measure the speed with a contact tachometer. If your supply is 60Hz, and the motor speed corresponded to one of the standard motor speeds, it would be a pretty safe bet you had a 60Hz motor. If the speed was about 20% faster than a standard speed, the motor is probably a 50Hz motor. Or 20% slower if you were running a 60Hz motor on 50Hz For instance, a 1750 RPM 50Hz motor would spin at about 2100 RPM if you ran it on 60Hz.