In determining the equilibrant, a force table was used in the experiment. What is the indicatic that the system is in equilibrium? *
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- The bar ABC is supported by three identical, ideal springs. Note that the springs are always vertical because the collars to which they are attached are free to slide on the horizontal rail. Find the angle at equilibrium if W = kL. Neglect the weight of the bar.The mechanism of negligible weight supports the weight W. Find the value of for equilibrium. Is the equilibrium position stable or unstable?What is the magnitude of force P required to keep the system in equilibrium?
- For the system to be in equilibrium sum of all horizontal and vertical forces must be equal to zero. Select one: True FalseQuestion 3 (Type B) The ring is subjected to three forces. Determine the direction of F2 and magnitude of F3 so that the ring is in static equilibrium. 40% F₁ = 2 N y. O Shaobo Huang F3 0 F₂ = 3 N X1. For equilibrium of a rigid body, the following conditions must be satisfied: Fa EF-0 MR EMo E(rx F) 0 a. Explain each term in the above statements. b. Represent the above statements using scalar equations.
- F, 70° 30 150 kN F1 The parts are connected by pins at point O. Find the magnitudes of forces F1 and F2 that bring them into equilibrium by 0 : 60°. The parts are connected by pins at point O. O Find the magnitude of the force F1 and the angle = in equilibrium, given that F2 = 80 N. F3 540 ニ %3D Fq The ta ニThe system shown in Figure 1 is in equilibrium. Determine the tension force in the cord DA. 3 4.5 B -1.5 2.5 D W= 20 N Figure 1 1.5DATA: Determination of components of the forces in equilibrium: 1-In the first part of the experiment, assume the equilibrium is achieved with the following three forces given in the following figure. Note that the first force is horizontal, the second force is vertical and the third force makes an angle with the positive horizontal axis. Three different measurements for the forces and the angle is given in the following table. Using the equilibrium state, find the components of the forces for each measurement. F F F₂ Fay F₂ Makara 1 F₁ (N) 0.153 0.398 0.302 F₂₁ F₂ (N) 0.225 0.449 0.614 Makara 2 2-In the second part of the experiment, the equilibrium can be realized when the forces are generated by several masses as F = mg. Three different measurements of the angle and the masses are given in the following table for the forces, which are oriented as shown in the left. Using the equilibrium state, find the components of the forces for each measurement. 0 (Derece) 46 27 60 0 m₁ (g) m₂…
- For W = 800 N, P=200 N, and d= 600 mm, determine the value of h consistent with equilibrium.3 m y 2 m A 4 m E F AB= F(AB)=tension force in AB F. = F(AD)=tension force in AD AD F = F(AC)=tension force in AC AC Weight of the flowerpot is 40 Newton. W=weight of the flowerpot What is the tension force magnitude in A C rope? Determine the force developed in each cable for equilibrium.What is the second condition for equilibrium? Cite two or three situations wherein this principle is applicable. State how the clockwise moment of force is related to the counterclockwise moments of force when the meterstick is in equilibrium