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Transcript
Sir Isaac Newton English physicist & mathematician …he developed the 3 laws of motion Motion is any change in position! Click here p. 45 Forces a push or a pull Forces can have the ability to change motion!!! Unit: Newton (N) p. 46 Force vs. Amount of matter (resists forces) Mass p. 47 Sir Isaac Newton’s 3 Laws of Motion: Newton’s 1st Law (Law of Inertia) “An object in motion wants to stay in motion, an object at rest wants to stay at rest.” FYI- Inertia depends upon mass. p. 48 Newton’s 2nd Law (Law of Acceleration) “Acceleration occurs in the direction of the force.” the object’s mass… and also the size of the force… determine the object’s acceleration p. 49 Newton’s 2nd Law (calculating acceleration) Formula: Acceleration (m/s2) Force (N) F/ A= m Mass (Kg) Ex.) p. 49, 50 p. 49 Types of Forces Forces cause motion Motion depends on net force Forces can be balanced or unbalanced p. 51 Balanced Forces Equal in size Opposite in direction No motion occurs! (equilibrium) Like a tie in an arm wrestling match! p. 51 Unbalanced Forces Unequal in size Opposite in direction 2nd law: unbalanced forces cause acceleration p. 51 Gravity A force that pulls us downward toward the center of the Earth. Gravity pulls everything down with a force of 9.8 N (Newtons) Click here p. 52 The gravitational force felt by an object is related to its mass. Mass does NOT change, but your weight will change with a change in gravity (moon)! Mass Amount of matter (resists forces) vs. mass x gravity (force) Weight p. 53 Calculating Weight Formula: Weight force (N) Mass (Kg) g m = Fw Gravity (9.8 m/s2) p. 53 Friction opposes an object’s motion Four Types of Friction: 1. Air friction 2. Viscous friction 3. Sliding friction 4. Rolling friction p. 54 1. Air Friction Also called Air resistance (aerodynamics reduce the air friction) Ex) falling objects or airplanes p. 54 2. Viscous Friction Moving through a liquid, or fluid Ex) swimming p. 54 3. Sliding Friction Two surfaces rub against one another Ex) rubbing hands or clapping Caused by irregularities in the surface p. 54 4. Rolling Friction An object rolls over a surface Ex) ball bearings, roller skates, or wheels Figure 3.9 p. 54 Newton’s 3rd Law (Action /Reaction) “For every action, there is an equal and opposite reaction.” p. 57 Calculating Momentum Formula: Momentum (Kg-m/s) Mass (Kg) P= m v Velocity (m/s) p. 58 Law of Conservation of Momentum Total amount of momentum can not change ex.) p. 59 p. 58
