Figure 8 Free-Body Diagram

j F_y (T₁ sin 30- ) 125 lbf 0 0.5 T₁ 125 lbf T₁ 250 lbf j Forces F₁ F₂ N W 0 Application of Newton's Laws FORCE EQUILIBRIUM Rev. 0 Page 15 CP-04 Figure 8 Free-Body Diagram By choosing (+) as the upward direction and (-) as the downward direction, the student can determine by examination that 1) the upward component of T is + T sin 30 , 2) the tension T 1 1 3 o is -125 lbf, and 3) T has no y- component. Therefore, using the same equation as before, we 2 obtain the following. If the sum of all forces acting upon a body is equal to zero, that body is said to be in force equilibrium. If the sum of all the forces is not equal to zero, any force or system of forces capable of balancing the system is defined as an equilibrant. Example: A 2000 lbm car is accelerating (on a frictionless surface) at a rate of 2 ft-sec. What force must be applied to the car to act as an equilibrant for this system? Solution: a. Draw a free-body diagram. b. A Force, F , MUST be applied in the opposite direction to F such that the 2 1 sum of all forces acting on the car is zero.