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Equilibrium. The word “static” means unchanging. An object in static equilibrium remains at rest. Static equilibrium.

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Presentation on theme: "Equilibrium. The word “static” means unchanging. An object in static equilibrium remains at rest. Static equilibrium."— Presentation transcript:

1 Equilibrium

2 The word “static” means unchanging. An object in static equilibrium remains at rest. Static equilibrium

3 The word “static” means unchanging. An object in static equilibrium remains at rest. The study of statics one of the most fundamental courses in engineering curriculums. But why? Why study objects that aren’t even moving? Static equilibrium

4 Understanding static equilibrium is an ESSENTIAL skill for designing safe structures. Mechanical and civil engineers, architects, and builders all work to ensure that a structure at rest REMAINS at rest. Static equilibrium

5 In order for this bridge to remain at rest, what must be true about the forces that act on it? Static equilibrium

6 The forces must add to zero in every direction: The net force The net force on any object at rest MUST equal zero:

7 For a system to stay at rest, the net force must be zero. Knowing that the net force must be zero can allow you to determine unknown forces. Statics problems

8 upper cable lower cable Two masses are hanging from a cable. a)What is the force of tension in the upper cable? b)What is the force of tension in the lower cable? Example problem

9 The masses are at rest so the net force must be zero. What relationships do we know? Two masses are hanging from a cable. a)What is the force of tension in the upper cable? b)What is the force of tension in the lower cable? Weight equals mg.

10 Step 1: Draw the free-body diagrams. Free-body diagrams Start with the top mass. There are 3 forces acting on it. Name them F 1, F 2, and m 1 g. Solving the problem

11 Free-body diagrams There are two unknown forces, F 1 and F 2, so we need more information. Step 1: Draw the free-body diagrams. Solving the problem Draw the free-body diagram for the bottom mass. The same force F 2 holds the bottom mass up! This is an action/reaction pair.

12 The net force on the bottom mass must equal zero: F 2 – m 2 g = 0 Therefore: F 2 = m 2 g = (1 kg)(9.8 N/kg) = 9.8 N The tension in the lower cable is 9.8 N. Free-body diagrams Solving the problem

13 The net force on the top mass must also be zero: F 1 - F 2 – m 1 g = 0 Free-body diagrams Solution Therefore: F 1 = F 2 – m 1 g = 9.8 N + (5 kg)(9.8 N/kg) = 58.8 N The tension in the upper cable is 58.8 N.

14 For an object to remain at rest when forces act in both the x and y directions, the net force must be zero in both directions. Static equilibrium in 2D

15 Problem: A 50 kg mass hangs from two cables as shown. What is the tension force in each cable? The first step: Draw the free-body diagram. Solving 2D problems

16 Free-body diagram Problem: A 50 kg mass hangs from two cables as shown. What is the tension force in each cable?

17 The next step: Resolve each force into x and y components. Find the force components

18 The x-direction The tensions are equal (by symmetry) and the net force in the x-direction is zero no matter what the tension is.

19 Setting the net force in the y-direction equal to zero provide the solution. The y-direction

20 Assessment 1. A NASA rover is parked on the surface of Mars, in a state of static equilibrium. What must be true about the forces acting on the rover?

21 The forces must add to zero in every direction: Assessment

22 a)Draw the free-body diagram for this situation. 2.A 50 kg mass is hanging from two cables as shown. Assessment

23 The point where the three cables join is the best place to draw the free-body diagram, not the 50 kg mass. a)Draw the free-body diagram for this situation. 2.A 50 kg mass is hanging from two cables as shown. Assessment

24 Break the force T into x and y components: b)What is the force F in the cable connected to the wall? 2.A 50 kg mass is hanging from two cables as shown. Assessment

25 Set the net force in both directions to zero. 2.A 50 kg mass is hanging from two cables as shown. b)What is the force F in the cable connected to the wall? Assessment

26 = 490 N 2.A 50 kg mass is hanging from two cables as shown. From the y equation: = 693 N b)What is the force F in the cable connected to the wall? Assessment

27 From the x equation: = 490 N = 693 N 2.A 50 kg mass is hanging from two cables as shown. b)What is the force F in the cable connected to the wall? Assessment

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