14 The double-reduction helical gearset shown in the Figure below is driven through shaft a at a speed of 900 rev/min. Gears 2 and 3 have a normal diametral pitch of 10 teeth/in, a 30° helix angle, and a normal pressure angle of 20°. The second pair of gears in the train, gears 4 and 5, have a normal diametral pitch of 6 teeth/in, a 25° helix angle, and a normal pressure angle of 20°. The tooth numbers are: N2 = 14, N3 = 54, N4 = 16, N5 = 36. Compute: %3D (a) The directions of the thrust force exerted by each gear upon its shaft (b) The speed and direction of shaft c (c) The center distance between shafts 5. E.

Elements Of Electromagnetics
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Author:Sadiku, Matthew N. O.
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SOHAR UNIVERSITY
Question 6:
The double-reduction helical gearset shown in the Figure below is driven through shaft a at a
speed of 900 rev/min. Gears 2 and 3 have a normal diametral pitch of 10 teeth/in, a 30° helix
angle, and a normal pressure angle of 20°. The second pair of gears in the train, gears 4 and 5,
have a normal diametral pitch of 6 teeth/in, a 25° helix angle, and a normal pressure angle of 20°.
The tooth numbers are: N2 = 14, N3 = 54, N4 = 16, N5 = 36. Compute:
(a) The directions of the thrust force exerted by each gear upon its shaft
(b) The speed and direction of shaft c
(c) The center distance between shafts
Transcribed Image Text:SOHAR UNIVERSITY Question 6: The double-reduction helical gearset shown in the Figure below is driven through shaft a at a speed of 900 rev/min. Gears 2 and 3 have a normal diametral pitch of 10 teeth/in, a 30° helix angle, and a normal pressure angle of 20°. The second pair of gears in the train, gears 4 and 5, have a normal diametral pitch of 6 teeth/in, a 25° helix angle, and a normal pressure angle of 20°. The tooth numbers are: N2 = 14, N3 = 54, N4 = 16, N5 = 36. Compute: (a) The directions of the thrust force exerted by each gear upon its shaft (b) The speed and direction of shaft c (c) The center distance between shafts
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