Q.2 (a) Answer the following questions (i) Explain the concept of equilibrium for a particle. (ii) State the procedure for drawing a free-body diagram. (iii) What is the condition for a particle subjected to multiple three- dimensional forces in the x, y, and z components to be in equilibrium? (b) Two forces of P = 100 N and Q = 50 N acted on the pole, as shown in Figure Q.2(b). Neglect the mass of the pole. (i) Solve the resultant moment on the pole about R if = 78. (ii) Solve the angle, 0, when the resultant moment on the pole about R is zero. P 10 m, 150° 5 m 620 Q

Elements Of Electromagnetics
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Author:Sadiku, Matthew N. O.
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Q.2
(a) Answer the following questions
(i) Explain the concept of equilibrium for a particle.
(ii)
State the procedure for drawing a free-body diagram.
(iii) What is the condition for a particle subjected to multiple three-
dimensional forces in the x, y, and z components to be in equilibrium?
(b) Two forces of P = 100 N and Q = 50 N acted on the pole, as shown in Figure
Q.2(b). Neglect the mass of the pole.
(i)
Solve the resultant moment on the pole about R if 0 = 78°.
(ii) Solve the angle, 0, when the resultant moment on the pole about R is zero.
P
10 m/
R
50.
Figure Q.2(b)
5 m
-Q
Transcribed Image Text:Q.2 (a) Answer the following questions (i) Explain the concept of equilibrium for a particle. (ii) State the procedure for drawing a free-body diagram. (iii) What is the condition for a particle subjected to multiple three- dimensional forces in the x, y, and z components to be in equilibrium? (b) Two forces of P = 100 N and Q = 50 N acted on the pole, as shown in Figure Q.2(b). Neglect the mass of the pole. (i) Solve the resultant moment on the pole about R if 0 = 78°. (ii) Solve the angle, 0, when the resultant moment on the pole about R is zero. P 10 m/ R 50. Figure Q.2(b) 5 m -Q
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