From previous Figure 1, fill in the table given. (No need to show calculation step)[Hint: Output torque of this power transmission can be calculate at the pulley on shaft 3 by referring Figure 2)Diameter,Rotational speed,Torque,D (mm)n (rpm)T (Nm)Gear 1 (16T)Gear 2 (80T)Gear 3 (25T)Gear 4 (100T) 16 TPOP100 Tmodule = 2.0#25 T116-PulleyGear A80 T (Gear 2)module = 1.5Figure 1Meanwhile the detail layout of theshaft 3 and its components areshown as in Figure 2. This shaft isgoing to drive a 300 mm diameterof pulley at 150 rev/min.162.5module2.0Shaft 3300Gear 4.Shaft 2300Gear 4Figure 2BGear 3Shaft 1|W)danShaft 3550Developed view400300-Gear 1400150 N430 NGear 2Figure 1 above shows a power transmission system that consists, arrangement of three shaft,two pair of spur gear and a pulley. A 16-tooth pinion drives the double-reduction spur-geartrain in figure. All gears have anormal pressure angle of 20°. Thepinion rotates CCW and transmitspower to the gear train. The shafthas not yet been designed, but thefree bodies diagram can be generate.ACEymodule 1.5-50150->>>PulleyD = 300 mm150PulleyD= 300 MM

The output torque is To. The output speed of pulley is N=150 rpm. The diameter of the shaft is given…

From previous Figure 1, fill in the table given. (No need to show calculation step) (Hint: Output torque of this power transmission can be calculate at the pulley on shaft 3 by referring Figur Diameter, Rotational speed, Torque, D (mm) n (rpm) T (Nm) Gear 1 (16T) Gear 2 (80T) Gear 3 (25T) Gear 4 (100T)

From previous Figure 1, fill in the table given. (No need to show calculation step) (Hint: Output torque of this power transmission can be calculate at the pulley on shaft 3 by referring Figur Diameter, Rotational speed, Torque, D (mm) n (rpm) T (Nm) Gear 1 (16T) Gear 2 (80T) Gear 3 (25T) Gear 4 (100T)

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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