A patient with a dislocated shoulder is put into a traction apparatus as shown i
ID: 2138271 • Letter: A
Question
A patient with a dislocated shoulder is put into a traction apparatus as shown in the figure. The pullsA? and B? have equal magnitudes and must combine to produce an outward traction force of 5.68N on the patient's arm.(Figure 1) A patient with a dislocated shoulder is put into a traction apparatus as shown in the figure. The pullsA? and B? have equal magnitudes and must combine to produce an outward traction force of 5.68N on the patient's arm.(Figure 1) A patient with a dislocated shoulder is put into a traction apparatus as shown in the figure. The pullsA? and B? have equal magnitudes and must combine to produce an outward traction force of 5.68N on the patient's arm.(Figure 1) A patient with a dislocated shoulder is put into a traction apparatus as shown in the figure. The pullsA? and B? have equal magnitudes and must combine to produce an outward traction force of 5.68N on the patient's arm.(Figure 1) Part A How large should these pulls be? ???A???? = N Provide FeedbackContinue Part A How large should these pulls be? ???A???? = N Part A How large should these pulls be? ???A???? = N Part A How large should these pulls be? ???A???? = N Part A How large should these pulls be? ???A???? = N Part A How large should these pulls be? ???A???? = N ???A???? = N ???A???? = N Provide FeedbackContinue Figure 1 of 1 A patient with a dislocated shoulder is put into a traction apparatus as shown in the figure. The pullsA? and B? have equal magnitudes and must combine to produce an outward traction force of 5.68N on the patient's arm.(Figure 1) Part A How large should these pulls be? ???A???? = N Provide FeedbackContinue Figure 1 of 1 A patient with a dislocated shoulder is put into a traction apparatus as shown in the figure. The pullsA? and B? have equal magnitudes and must combine to produce an outward traction force of 5.68N on the patient's arm.(Figure 1)Explanation / Answer
A=3.348N