A planetary gear train is illustrated in the figure below. The carrier (link 2) serves as the input to the train. The ring gear (gear 1) has a 4-in pitch diameter and serves as th output from the train. The planet gear (gear 4) has a 3-in pitch diameter. The sun gear (gear 3) is fixed, it has 16 teeth with a diametral pitch of 12. Determine the rotational velocity of the ring gear when the input shaft rotates at 1600 rpm clockwise. Gear 1 (ring) Gear 4 (planet) Link 2 (carrier) Gear 3 (sun)

A planetary gear train is illustrated in the figure below. The carrier (link 2) serves as the input to the train. The ring gear (gear 1) has a 4-in pitch diameter and serves as th output from the train. The planet gear (gear 4) has a 3-in pitch diameter. The sun gear (gear 3) is fixed, it has 16 teeth with a diametral pitch of 12. Determine the rotational velocity of the ring gear when the input shaft rotates at 1600 rpm clockwise. Gear 1 (ring) Gear 4 (planet) Link 2 (carrier) Gear 3 (sun)

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

ChapterMA: Math Assessment

Section: Chapter Questions

Problem 1.1MA

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A planetary gear train is illustrated in the figure below. The carrier (link 2) serves as the input to the train. The ring gear (gear 1) has a 4-in pitch diameter and
serves as th output from the train. The planet gear (gear 4) has a 3-in pitch diameter. The sun gear (gear 3) is fixed, it has 16 teeth with a diametral pitch of 12.
Determine the rotational velocity of the ring gear when the input shaft rotates at 1600 rpm clockwise.
- Gear 1 (ring)
- Gear 4 (planet)
- Link 2 (carrier)
Gear 3 (sun)

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