A steel shaft ABCD of length L = 6.5 is shown in Figure 4. Given the torque at A, B, C and D is 80 kNm, 150 kNm, 60 kNm and 10 kNm, respectively. The shaft has a diameter of 200 mm. a) Determine the angle of twist of the end A. b) Calculate the angle of twist of A relative to C. c) Plot a diagram of torque, T versus length, L of the shaft. 1.5 m² | _2 m _3 m D 10 KN•M 60 kN·m 150 kN·m 80 kN·m Figure 4
A steel shaft ABCD of length L = 6.5 is shown in Figure 4. Given the torque at A, B, C and D is 80 kNm, 150 kNm, 60 kNm and 10 kNm, respectively. The shaft has a diameter of 200 mm. a) Determine the angle of twist of the end A. b) Calculate the angle of twist of A relative to C. c) Plot a diagram of torque, T versus length, L of the shaft. 1.5 m² | _2 m _3 m D 10 KN•M 60 kN·m 150 kN·m 80 kN·m Figure 4
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 steel shaft ABCD of length L = 6.5 is shown in Figure 4. Given the torque at A, B, C and
D is 80 kNm, 150 kNm, 60 kNm and 10 kNm, respectively. The shaft has a diameter of
200 mm.
a) Determine the angle of twist of the end A.
b) Calculate the angle of twist of A relative to C.
c) Plot a diagram of torque, T versus length, L of the shaft.
Transcribed Image Text:A steel shaft ABCD of length L = 6.5 is shown in Figure 4. Given the torque at A, B, C and
D is 80 kNm, 150 kNm, 60 kNm and 10 kNm, respectively. The shaft has a diameter of
200 mm.
a) Determine the angle of twist of the end A.
b) Calculate the angle of twist of A relative to C.
c) Plot a diagram of torque, T versus length, L of the shaft.
1.5 m
2 m
3 m
D
10 KN•M
B.
60 KN•M
´A
150 kN·m
80 kN·m
Figure 4
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