Newton’s Laws of Motion
A force is a “push or pull” on an object. It usually causes a change in in the state of motion of an object, sometimes causing a deformation (change in shape) instead. Forces have a magnitude and direction – they are vector quantities. Most common method of measuring force magnitude involves a spring scale. The units of force are kg·m/s 2, otherwise known as the newton. Force
Mass is measured using a balance, comparing the mass of an unknown object to that of a known object. The official SI unit for mass is the kilogram (2.2 lbs). Common Conversions 1 kilogram = 1000 grams 1 kg = 1000 g Mass
Recall that an object’s density (ρ) is defined as the ratio of its mass to its volume: Mass is not the identical to volume, which is the amount of physical space an object takes up. Mass vs. Volume Au Density of Gold: 19.3 g/cm 3 Cu Density of Copper: 8.96 g/cm 3
As such it is written as F g, or sometimes W, and like all forces, its SI unit is the kg·m/s 2 (newton). Weight The weight of an object at (or very near) the surface of the earth may be calculated as follows: Weight is a measure of how strongly Earth’s gravity pulls on a mass – it is a force.
Mass vs. Weight Mr. Almeida’s Instant Weight-Loss Diet † On the Moon, the gravitational force is approximately 1/6 th what it is on Earth. Objects therefore weigh 1/6 th as much on the moon as they do on Earth. Mass is a property of an object – it is immutable. Weight is a measure of the gravitational force on an object – it varies with the location of the object † Sorry there is nothing I can do about your mass.
Net Force, or resultant force, or sum of forces, refers to the overall force acting on a mass. The effect of the single net force is equal to the combined effect of all the individual forces. F net WS
F net WS Collinear Forces
F net WS Non-Collinear Forces
Every body continues in its state of rest or uniform speed in a straight line, unless it is compelled to change that state by a net force acting on it. Newton’s First Law of Motion WS This tendency to maintain one’s state of motion (whether at rest or moving) is called inertia, which is another name for mass. More mass means more inertia, or a greater resistance to change. Hence, Newton’s First Law of Motion is commonly called “The Law of Inertia.” Key words and phrases: “at rest” “constant (or uniform) speed” “in a straight line” “net force
Equilibrium refers to the balancing of the forces (F net = 0). Static equilibrium – forces balanced, stationary object Dynamics equilibrium – forces balanced, moving object A Visual Take on Newton’s First Law of Motion Forces are Balanced Object at Rest (v = 0 m/s) Object in Motion (v ≠ 0 m/s) Stay at Rest Stay in Motion (same speed, direction) if then “Equilibrium” See : Think :
Example
Equilibrium refers to the balancing of the forces. Two kinds of equilibrium: Static equilibrium – forces balanced, stationary object Dynamics equilibrium – forces balanced, moving object Static / Dynamic Equilibrium “Equilibrium” See : Think :
The single most important thing you will memorize understand in this class all year: Newton’s Second Law of Motion A net Force applied to a mass causes that object to acceleration. WS
A net force of 80 N causes the 16 kg boy to accelerate down the waterslide. What is his acceleration? If he starts from rest at the top of the slide and it takes him 3 seconds to reach the bottom, what is his speed at the bottom of the slide? Example
Newton’s 2 nd Law and Free-Fall
Newton’s Third Law of Motion “Whenever one object exerts a force on a second object, the second object exerts a force (equal in magnitude, in the opposite direction) back on the first.”
Newton’s Third Law of Motion