1. Chapter 12: (Static) Equilibrium and Elasticity
Reading assignment: Chapter
Homework : (due Wednesday, Oct. 26, 2005):
Problems: 4, 10, 24, 31, 35, 42
Objects in static equilibrium don’t move.
Of special interest to civil and mechanical engineers and architects.
We’ll also learn about elastic (reversible) deformations.
Plastic deformations are irreversible (like play dough)

2. Objects in static equilibrium don’t ______ or _______.
Conditions for static equilibrium
Objects in static equilibrium don’t ______ or _______.

3. Conditions for static equilibrium
(For ____________ objects)
The net force acting on the particle must be _________.
The net torque about any axis acting on the particle must be ______.
The _______ and _______ speeds must be zero.

4. Is this object in static equilibrium?
Conditions for static equilibrium
(For extended objects)
Is this object in static equilibrium?
A force couple is acting on an object. A ___________ ___________ is a pair of forces of equal magnitude and opposite direction along parallel lines of action

5. It matters at which point the force is applied!!
If equal and opposite forces are applied at _________________ points  object is not in equilibrium, since there is a net torque.
If equal and opposite forces are applied at the same ___________ or along the same _______________  object is in equilibrium

6. Conditions for static equilibrium
(For extended objects)
The net force acting on the particle must be zero.
The net torque about any axis acting on the particle must be zero.
The angular and linear speeds must be zero.
We restrict ourselves to forces in the x-y plane. Thus:

7. Center of gravity How do we treat the _____________ force?
Consider an extended object.
The gravitational force ___ always acts on the center of gravity!
The center of gravity is equal to the center of _______(Ch. 9.2).

8. Examples of rigid objects in static equilibrium
We will only consider objects that are _______________ and in a ________________________ gravitational field.

9. Balanced rock
For this system to be in static equilibrium, the center of gravity must be directly over the support point.
Why??

10. Problem-solving hints:
Objects in static equilibrium
Draw a _____ __________ diagram.
Show and label all the _______ forces acting on the object.
Indicate ____________ the forces are applied.
Establish a convenient ______________ system for forces. Then apply condition 1: Net force must equal _________.
Establish a convenient ____________ system for torque. Then apply condition 2: Net torque must equal ______________.

11. Black board example 12.1
A uniform 40.0 N board supports a father (800 N) and daughter (350 N) as shown. The support is under the center of gravity of the board and the father is 1.00 m from the center.
Determine the magnitude of the upward force n exerted on the board by the support.
Determine where the child should sit to balance the system.

12. Black board example 12.2
HW 9
A diver of weight 580 N stands at the end of a 4.5 m diving board of negligible mass (see Fig). The board is attached to two pedestals 1.5 m apart.
Draw a free body diagram.
What are the magnitude and direction of the force on the board from left pedestal?
What are the magnitude and direction of the force on the board from right pedestal?
Which pedestal is being stretched and which is compressed?

13. Elastic properties of solids
We will consider three types of deformations and define an elastic modulus for each.
Change in length. _______________ MODULUS measures the resistance of a solid to a change in its length.
Shearing. ______________ MODULUS measures the resistance to shearing.
Change in volume. _______________ MODULUS measures the resistance to changes in volume.

14. Elastic properties of solids
Definitions of stress and strain.
Stress: _________ per unit cross sectional area.
Strain: Measure of the degree of ___________.

15. Elastic properties of solids
Tension or compression
Young’s modulus:

16. Stress-strain curve

17. Elastic properties of solids
Shear modulus:

18. Bulk modulus: Elastic properties of solids
Hydraulic _____________ or stress
Bulk modulus:
P… pressure

19. Black board example 12.4
A 200 kg load is hung on a wire with a length of 4.00 m, a cross-sectional area of 2.00·10-5 m and a Youngs modulus of 8.00·1010 N/m2.
What is its increase in length (Assume elastic deformation)?