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Chapter 2 Notes Mechanical Equilibrium. ·Things in mechanical equilibrium are stable, without changes in motion. ·Ex: Rope.

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Presentation on theme: "Chapter 2 Notes Mechanical Equilibrium. ·Things in mechanical equilibrium are stable, without changes in motion. ·Ex: Rope."— Presentation transcript:

1 Chapter 2 Notes Mechanical Equilibrium

2 ·Things in mechanical equilibrium are stable, without changes in motion. ·Ex: Rope

3 2.1 Forces ·Force ·A push or a pull ·A force is required to change an object’s state of motion. ·Net Force ·The combination of all forces acting on an object ·Newton= about 0.22 lbs (1N = 2 lbs)

4 2.1 Forces ·Vector ·An arrow that represents the magnitude and direction of a quantity ·When a force is represented by an arrow, the length is scaled to represent the amount (magnitude) of the force, and the direction of the arrow points in the direction of the force

5 2.1 Forces ·Vector Quantity ·A quantity that needs both magnitude and direction for a complete description ·Force, velocity, acceleration ·Scalar Quantity ·A quantity that can be described by magnitude only and has no direction ·Time, area, volume, temperature

6 2.2 Mechanical Equilibrium ·Mechanical Equilibrium ·Is a state wherein no physical changes occur ·A state of steadiness ·Equilibrium Rule ·Whenever the net force on an object is zero, the object is said to be in mechanical equilibrium

7 2.2 Mechanical Equilibrium ·Equilibrium Rule ·Mathematically ΣF=0 ·Σ stands for “the sum of” ·F stands for forces ·All the forces acting on an object add vectorially to zero ·If up = +, then down = -

8 2.3 Support Forces ·Support force (Normal Force) ·For an object at rest on a horizontal surface, the support force must equal the object’s weight ·ΣF=0

9 2.4 Equilibrium for Moving Objects ·An object moving at a constant speed in a straight-line path is in a state of equilibrium. ·Equilibrium is a state of no change. ·Objects at rest are said to be in static equilibrium, objects moving at constant speed in a straight-line path are said to be in dynamic equilibrium.

10 2.5 Vectors ·Combining parallel vectors ·If they are in the same direction, they add ·If they are in oposite directions, they subtract ·Resultant ·The sum of two or more vectors

11 2.5 Vectors ·The Parallelogram Rule ·To find the resultant of two non-parallel vectors, construct a parallelogram wherein the two vectors are adjacent sides. The diagonal of the parallelogram shows the resultant

12 2.5 Vectors ·Tail to tip Method ·Place the tail of the second vector on the tip of the first. ·(Place the tail of the next vector on the tip of the previous.) ·A line drawn from the tail of the first to the tip of the last is the resultant.

13 2.5 Vectors ·Vector Subtraction ·Vectors are subtracted by adding a vector of the same magnitude in the opposite direction. ·Vector Multiplication/Division ·The magnitude is changed. The direction stays the same (unless multiplied by a negative.)


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