1. Force applied at a distance causing a rotating effect
Torque
Force applied at a distance causing a rotating effect

2. Center of Gravity The point at which all of the weight
of the object can
be considered to
be concentrated
All measurements are made to the center of gravity

3. Torques

4. The “torque arm” must always be measured
perpendicular to the direction of the force.
We will only be studying torques applied
perpendicular to the bar.

5. Translational Equilibrium
All forces are balanced
There is no linear acceleration
The way we use this with rotary motion is we say:
“The Up Forces equal the Down Forces”
These forces are “coupled”: they do not need to act on the same point, just on the same plane

6. Translational Equilibrium
If the up forces = the down forces, then
Fa = Fb and the bar will not have a tendency to change its linear motion

7. Rotational Equilibrium
Clockwise Torques = Counterclockwise Torques
Must be true about any pivot point
Therefore, in doing torque problems, choose a pivot point that eases calculation

8. Summarizing Problem Solving Strategy:
Σ CW = Σ CCW
Always used
Σ Up F = Σ Down F
Not always necessary to use this

9. Example 1
A nonuniform bar is 4.5 m long and weighs 640 N. It is balanced when a 270 N weight is hung 0.80 from the light end of the bar and the bar is pivoted at the center. Where is the center of gravity of the bar? ANS: 1.6 m from heavy end

10. Example 2
Two workers carry a nonuniform beam weighing 730 N. The beam is 2.6 m long and its center of gravity is 1.1 m from one end. If the workers hold the beam at its ends, how much does each worker lift? ANS: 310 N and 420 N

11. Practice Problems:
A nonuniform bar is 3.8 m long and has a weight of 560 N. The bar is balanced in a a horizontal position when it is supported at its geometric center and a 340 N weight is hung 0.70 m from the bar’s light end. Find the bar’s center of gravity. ANS: 1.2 m from heavy end
A large wooden beam weighs 820 N and is 3.2 m long. The beam’s center of gravity is 1.4 m from one end. Two workers begin carrying the beam away. If they lift the beam at its ends, what part of its weight does each worker lift? ANS: 460 N and 360 N.