Need complete solution. The given planetary gear system is composed of 3 Planetary Gears C, Ring Gear E and Sun Gear F. It is used to transmit power from the Carrier Shaft A to the Driving Shaft G, as shown. Ring Gear E is stationary in the given scenario and only holds the planetary gears in place without exerting additional torque. Driving Shaft G is attached to Sun Gear F. The allowable shearing stress for each shaft ist. If the frequency of the Carrier Shaft A is fa, determine the maximum power (in kilowatts) that can be transmitted from Carrier Shaft A to the Driving Shaft G Hint: The torque applied at Carrier Shaft A is shared equally by each Planetary Shaft D. The analysis of one Planetary Gear C applies to the two other Planetary Gears C. Shaft/Gear Carrier Shaft A (circular) Each Planetary Gear C Each Planetary Shaft D (circular) Ring Gear E Sun Gear F Driving Shaft G (circular) Given: Allowable shearing stress = 100 MPa Frequency of Shaft A = 20hz Driving Shaft G Sun Gear F Ring Gear E Driving Shaft G (circular) 60 mm 75 mm 25 mm 300 mm 150 mm 40 mm - 3 Planetary Gears C Carrier B Carrier Shaft A - 3 Planetary Shafts D

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Need complete solution. The given planetary gear system is composed of 3 Planetary Gears C, Ring Gear E and Sun Gear F. It is used to transmit power from the Carrier Shaft A to the Driving Shaft G, as shown. Ring Gear E is stationary in the given scenario and only holds the planetary gears in place without exerting additional torque. Driving Shaft G is attached to Sun Gear F. The allowable shearing stress for each shaft is talowable. If the frequency of the Carrier Shaft A is fa, determine the maximum power (in kilowatts) that can be transmitted from Carrier Shaft A to the Driving Shaft G Hint: The torque applied at Carrier Shaft A is shared equally by each Planetary Shaft D. The analysis of one Planetary Gear C applies to the two other Planetary Gears C. Shaft/Gear Carrier Shaft A (circular) Each Planetary Gear C Each Planetary Shaft D (circular) Ring Gear E Sun Gear F Driving Shaft G (circular) Given: Allowable shearing stress = 100 MPa Frequency of Shaft A = 20hz Driving Shaft G Sun Gear F Ring Gear E Driving Shaft G (circular) 60 mm 75 mm 25 mm 300 mm 150 mm 40 mm - 3 Planetary Gears C Carrier B Carrier Shaft A 3 Planetary Shafts D