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The uniform pole of length L and mass M is placed against the supporting shown in Fig.3. If the coefficient of static friction on both surfaces is 4. = 0.25, maximum angle 0 at which the pole can be placed before it begins to slip. 3. surfaces as determine the [ Ans : 0 = 59.99 P(a) • 5 kg | H, = 0,50 P (b) 10 kg 105 B H, = 0.60 Fig. 3 Fig. 4

The uniform pole of length L and mass M is placed against the supporting shown in Fig.3. If the coefficient of static friction on both surfaces is 4. = 0.25, maximum angle 0 at which the pole can be placed before it begins to slip. 3. surfaces as determine the [ Ans : 0 = 59.99 P(a) • 5 kg | H, = 0,50 P (b) 10 kg 105 B H, = 0.60 Fig. 3 Fig. 4

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
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The uniform pole of length L and mass M is placed against the supporting s u r f a c e s a s
shown in Fig.3. If the coefficient of static friction on both surfaces is , determine the
maximum angle at which the pole can be placed before it begins to slip.

3. The uniform pole of length L and mass M is placed against the supporting shown in Fig.3. If the coefficient of static friction on both surfaces is Hs = 0.25 maximum angle 0 at which the pole can be placed before it begins to slip. surfaces as determine the [ Ans : 0 = 59.9] P(a) 5 kg | 10 kg H = 0.50 -L-P(b) 105° B H, = 0.60 Fig. 3 Fig. 4
Transcribed Image Text:3. The uniform pole of length L and mass M is placed against the supporting shown in Fig.3. If the coefficient of static friction on both surfaces is Hs = 0.25 maximum angle 0 at which the pole can be placed before it begins to slip. surfaces as determine the [ Ans : 0 = 59.9] P(a) 5 kg | 10 kg H = 0.50 -L-P(b) 105° B H, = 0.60 Fig. 3 Fig. 4
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