Q6) Elements of the lower am are shown in Figure 6. The mass of the forearm is 2.3 kg with mass centre at G. Determine the moment about the elbow pivot O of the weight of the forearm and the 3.6 kg hom ogeneous sphere. What must the biceps tension force be so that the overall m om ent about O is zero? 50 mm 55 -G 160 mm 2.39.81) N 3.69.81) N 325 mm Figure 6
Q6) Elements of the lower am are shown in Figure 6. The mass of the forearm is 2.3 kg with mass centre at G. Determine the moment about the elbow pivot O of the weight of the forearm and the 3.6 kg hom ogeneous sphere. What must the biceps tension force be so that the overall m om ent about O is zero? 50 mm 55 -G 160 mm 2.39.81) N 3.69.81) N 325 mm Figure 6
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
Section: Chapter Questions
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![Q6) Elements of the lower am are shown in Figure 6. The mass of the forearm is 2.3 kg
with mass centre at G. Determine the moment about the elbow pivot O of the weight of the
forearm and the 3.6 kg hom ogeneous sphere. What must the biceps tension force be so that the
overall m om ent about O is zero?
0 mm
55
-G
160 mm
2.39.81) N
3.69.81) N
325 mm
Figure 6](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F438bca33-07c4-45a0-9f45-ba763b0603bc%2F9eb24784-ee09-49b3-9c3d-dfa1eba027a8%2Ffl631ju_processed.jpeg&w=3840&q=75)
Transcribed Image Text:Q6) Elements of the lower am are shown in Figure 6. The mass of the forearm is 2.3 kg
with mass centre at G. Determine the moment about the elbow pivot O of the weight of the
forearm and the 3.6 kg hom ogeneous sphere. What must the biceps tension force be so that the
overall m om ent about O is zero?
0 mm
55
-G
160 mm
2.39.81) N
3.69.81) N
325 mm
Figure 6
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