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Find the tension in the cable and the force exerted at the pivot in the system shown in figure 3. The strut is uniform and has a mass of 20 kg. figure 3 10 kg 45°

Find the tension in the cable and the force exerted at the pivot in the system shown in figure 3. The strut is uniform and has a mass of 20 kg. figure 3 10 kg 45°

Elements Of Electromagnetics
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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1. A0.5 kg uniform meter stick is hinged at 0.5 cm from one end and held horizontally by a force T applied at an angle of 30° with the horizontal as shown in figure 1. a. If T is applied at the end of the meter stick as shown, what is the magnitude of T and what is the force F exerted at the pivot on the meter stick? T. figure 1 30° b. If the force T'is applied in the same direction but at 60 cm from the pivot, what are T and F? c. How do T and F from part (b) change if, as shown in figure 2, a mass of 1 kg is suspended 35 cm from the left end of the meter stick? T 30° figure 2 2. Find the tension in the cable and the force exerted at the pivot in the system shown in figure 3. The strut is uniform and has a mass of 20 kg. figure 3 30° 10 kg 45°
Transcribed Image Text:1. A0.5 kg uniform meter stick is hinged at 0.5 cm from one end and held horizontally by a force T applied at an angle of 30° with the horizontal as shown in figure 1. a. If T is applied at the end of the meter stick as shown, what is the magnitude of T and what is the force F exerted at the pivot on the meter stick? T. figure 1 30° b. If the force T'is applied in the same direction but at 60 cm from the pivot, what are T and F? c. How do T and F from part (b) change if, as shown in figure 2, a mass of 1 kg is suspended 35 cm from the left end of the meter stick? T 30° figure 2 2. Find the tension in the cable and the force exerted at the pivot in the system shown in figure 3. The strut is uniform and has a mass of 20 kg. figure 3 30° 10 kg 45°
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