L Reviev Learning Goal: To determine the angle of twist for a circular shaft that is composed of varying cross sections and that is subjected to a given power and frequency load. As shown, a shaft is composed of five cylindrical sections. A motor is attached at F and supplies the shaft with P = 220.0 hp at a speed of w = 1800 rpm . This power is transferred through the shaft without any loss and is completely removed by the pulley at A. Let a = 7.750 in , b = 12.00 in , c = 15.50 in , d1 = 3.300 in , d2 = 5.600 in , and dz = 7.700 in . Assume that the modulus of rigidity for the entire shaft is G = 11.0 × 10€ psi and that the sections of the shaft are fastened in such a way that they cannot fail. Also, assume that the shaft is rigidly supported along its length

Need help on part A,C,and D

engineering of materials

Part C - Angle of twist of B with respect to E

Determine the angle of twist of B with respect to E.

Express your answer to four significant figures and include the appropriate units.

 

ϕB/E =

 

Part D - Angle of twist of A with respect to F

Determine the angle of twist of A with respect to F.

Express your answer in radians to four significant figures.

 

 

 

ϕA/F =

Transcribed Image Text:

Angle of Twist 1 of 9 Part A - Internal torques in the shaft Determine the internal torques in sections AB, BC, CD, DE, and EF. Express your comma-separated answers in lb · ft to four significant figures. • View Available Hint(s) nV ΑΣφ ? vec ТАВ, ТВС, ТсD, TDE, TEr 3 lb - ft, lb ft, lb · ft, lb - ft, lb - ft Submit Previous Answers Part B - Angle of twist of C with respect to D Determine the angle of twist of C with respect to D. Express your answer to four significant figures and include the appropriate units. • View Available Hint(s) OC/D = 3.145x10-5 rad

Transcribed Image Text:

Angle of Twist 1 of 9 I Review Learning Goal: To determine the angle of twist for a circular shaft that is composed of varying cross sections and that is subjected to a given power and frequency load. As shown, a shaft is composed of five cylindrical sections. A motor is attached at F and supplies the shaft with P = 220.0 hp at a speed of w = 1800 rpm . This power is transferred through the shaft without any loss and is completely removed by the pulley at A. Let a = 7.750 in , b = 12.00 in , c = 15.50 in , d1 = 3.300 in , d2 = 5.600 in , and dz = 7.700 in . Assume that the modulus of rigidity for the entire shaft is G = 11.0 × 106 psi and that the sections of the shaft are fastened in such a way that they cannot fail. Also, assume that the shaft is rigidly supported along its length .7 B such that it is always in static equilibrium.