![SOLVED: In the case of an 8-pole induction motor, the supply frequency was 50-Hz and the shaft speed was 735 rpm. Compute its slip speed (rpm). SOLVED: In the case of an 8-pole induction motor, the supply frequency was 50-Hz and the shaft speed was 735 rpm. Compute its slip speed (rpm).](https://cdn.numerade.com/ask_previews/30d3acaa-1ffc-43aa-ab13-03e270857091_large.jpg)
SOLVED: In the case of an 8-pole induction motor, the supply frequency was 50-Hz and the shaft speed was 735 rpm. Compute its slip speed (rpm).
![A 4-pole, the 3-phase induction motor is running at 4% slip at full load. If the speed of the motor is 750 rpm, the supply frequency is-a)b)25 Hzc)50 Hzd)60 HzCorrect answer is A 4-pole, the 3-phase induction motor is running at 4% slip at full load. If the speed of the motor is 750 rpm, the supply frequency is-a)b)25 Hzc)50 Hzd)60 HzCorrect answer is](https://edurev.gumlet.io/ApplicationImages/Temp/7e0c44f2-216c-4d99-b51b-c141d1654308_lg.png)
A 4-pole, the 3-phase induction motor is running at 4% slip at full load. If the speed of the motor is 750 rpm, the supply frequency is-a)b)25 Hzc)50 Hzd)60 HzCorrect answer is
![THREE PHASE INDUCTION MOTOR, Rotating Magnetic Field (RMF), Slip, Construction, Torque-speed characteristics Speed control, Power flow, Equivalent Circuit, Maximum torque | PPT THREE PHASE INDUCTION MOTOR, Rotating Magnetic Field (RMF), Slip, Construction, Torque-speed characteristics Speed control, Power flow, Equivalent Circuit, Maximum torque | PPT](https://image.slidesharecdn.com/5-210202101531/85/three-phase-induction-motor-rotating-magnetic-field-rmf-slip-construction-torquespeed-characteristics-speed-control-power-flow-equivalent-circuit-maximum-torque-12-320.jpg?cb=1670044842)
THREE PHASE INDUCTION MOTOR, Rotating Magnetic Field (RMF), Slip, Construction, Torque-speed characteristics Speed control, Power flow, Equivalent Circuit, Maximum torque | PPT
![Sensors | Free Full-Text | Fault Diagnosis in the Slip–Frequency Plane of Induction Machines Working in Time-Varying Conditions Sensors | Free Full-Text | Fault Diagnosis in the Slip–Frequency Plane of Induction Machines Working in Time-Varying Conditions](https://www.mdpi.com/sensors/sensors-20-03398/article_deploy/html/images/sensors-20-03398-g020-550.jpg)
Sensors | Free Full-Text | Fault Diagnosis in the Slip–Frequency Plane of Induction Machines Working in Time-Varying Conditions
![large hadron collider - On slip factor and phase transitions in particle accelerators - Physics Stack Exchange large hadron collider - On slip factor and phase transitions in particle accelerators - Physics Stack Exchange](https://i.stack.imgur.com/7J47W.png)
large hadron collider - On slip factor and phase transitions in particle accelerators - Physics Stack Exchange
![VFDs and Slip Frequency. A question for the Gurus. - Electric motors & generators engineering - Eng-Tips VFDs and Slip Frequency. A question for the Gurus. - Electric motors & generators engineering - Eng-Tips](https://res.cloudinary.com/engineering-com/image/upload/v1559451682/tips/image_hju3sp.png)
VFDs and Slip Frequency. A question for the Gurus. - Electric motors & generators engineering - Eng-Tips
![Transition from slip-frequency control to vector control for induction motor drives of traction applications in Japan | Semantic Scholar Transition from slip-frequency control to vector control for induction motor drives of traction applications in Japan | Semantic Scholar](https://d3i71xaburhd42.cloudfront.net/7c6e36495d7211d29cd5d3dad806af77c21569af/4-Figure11-1.png)
Transition from slip-frequency control to vector control for induction motor drives of traction applications in Japan | Semantic Scholar
![three phase - Why is the torque vs slip speed characteristic of an induction motor costant with respect to the frequency of the voltages applied? - Electrical Engineering Stack Exchange three phase - Why is the torque vs slip speed characteristic of an induction motor costant with respect to the frequency of the voltages applied? - Electrical Engineering Stack Exchange](https://i.stack.imgur.com/YWfmp.png)