Post on 16-Dec-2015
CHAPTER 3--FORCES
Section 1: NEWTON’S SECOND LAW
REVIEW—NEWTON’S 1ST LAW(LAW OF INERTIA)
If an object is moving at constant velocity, it keeps moving at that velocity unless a net force acts on it; if an object is at rest, it stays at rest, unless a net force acts on it.
INERTIA
Inertia is the tendency of an object to resist any change in motion.
The greater the mass of an object, the greater the inertia.
↑ MASS = ↑ INERTIA
NEWTON’S SECOND LAW The net force acting on an object
causes the object to accelerate in the direction of the net force. The acceleration of an object is determined by the size of the net force and the mass of the object. (LONG VERSION)
OR This law describes how force, mass, and
acceleration are connected. (SHORT VERSION)
FORCE AND ACCELERATION The greater the force that is
applied to an object, the greater the acceleration will be.
Examples…
Ball thrown hard = greater
force and acceleration
Ball thrown gently = less force and acceleration
FORCE AND MASS If you throw a softball and a
baseball as hard as you can…why don’t they have the same speed?
The difference is due to their masses.
MASS of softball= 0.20 kg
MASS of baseball=0.14 kg
NEWTON’S 2ND LAW The acceleration of an object depends on its mass,
as well as the force, exerted on it. Remember—If more than one force acts on an
object, the forces combine to form a net force. NEWTON’S 2ND LAW can be written as the following
equation Acceleration =net force
mass
OR
a = F
m
SI UNITS The unit of MASS is the kg
The unit of ACCELERATION is m/s2
The unit of FORCE is kg x m/s2, which is also called the Newton (N)
PROBLEM
A student pedaling a bicycle applies a net FORCE of 200 N.
The MASS of the rider and the bicycle is 50 kg.
What is the ACCELERATION of the bicycle and the rider?
SOLVING FOR ACCELERATION a = F
m
a = 200 N =
50 kg
4 m/s2
PROBLEM MASS of a tennis ball is
0.06 kg
ACCELERATION of the ball leaving the racket is 5,500 m/s2
What is the FORCE that is applied to the racket?
SOLVING FOR FORCE
F = ma
F = (0.06 kg) (5,500 m/s2)
F = 330 N
PROBLEM
A student riding a skateboard applies a net FORCE of 180 N.
The ACCELERATION of the skateboard and the rider is 3 m/s2.
What is the MASS of the skateboard and the rider?
SOLVING FOR MASS
m = F
a
m = 180 N (kg x m/s2)
3 m/s2
m = 60 kg
FRICTION The force that opposes motion
between 2 surfaces that are touching each other
The amount of friction depends on 2 factors1. the types of surfaces2. the force pressing the surfaces together
FRICTION What causes friction?
If 2 surfaces are pressed tightly together, welding or sticking occurs in those areas where the highest bumps come into contact with each other. These areas where the bumps stick together are called microwelds and are the source of friction.
MICROWELDS
STATIC FRICTION
Friction between 2 surfaces that are NOT moving past each other.
MICROWELDS have formed between the bottom of the box and the floor.
SLIDING FRICTION
Force that opposes the motion of 2 surfaces sliding past each other.
Caused by MICROWELDS constantly breaking and then forming again as the box slides across the floor.
ROLLING FRICTION
Friction between a rolling object and the surface it ROLLS on.
Because of rolling friction, the wheels of a train rotate when they come into contact with the track, rather than sliding over it.
ROLLING FRICTION
Rolling friction is usually much less than static or sliding friction. That is why it is easier to pull a load in a wagon, rather than pushing it on the ground.
AIR RESISTANCE
When an object falls toward Earth, it is pulled downward by the force of gravity; however, another force called air resistance acts on objects that fall through the air.
FORCES THAT OPPOSE MOTION
Friction, as well as air resistance, acts in the direction opposite to that of the object’s motion.
AIR RESISTANCE
The amount of air resistance on an object depends on the speed, size, and shape of the object (NOT MASS).
CHAPTER 3: FORCES
Section 2--GRAVITY
GRAVITY Anything that has mass is attracted by
the force of gravity.
According to the law of gravitation, any 2 masses exert an attractive force on each other
GRAVITY The attractive force depends on the
mass of the 2 objects and the distance between them.
Gravity is 1 of the 4 basic forces. (The other basic forces are the electromagnetic force, the strong nuclear force, and the weak nuclear force.
MASS(M) VS. DISTANCE(D)
If the mass of either of the objects increases, the gravitational force between them increases. (Left pic) ↑M = ↑GF
If the objects are closer together, the gravitational force between them increases. (Right pic)↓ D=↑GF
GRAVITATIONAL ACCELERATION
Near Earth’s surface, the gravitational attraction of Earth causes all falling objects to have an acceleration of 9.8 m/s2.
As a result, all objects fall with the same acceleration rate, regardless of their mass.
GRAVITATIONAL ACCELERATION
According to the second law, the force on an object that has an acceleration of 9.8 m/s2 is as follows:
F = m x 9.8 m/s2
A force has a direction. The force of gravity is always directed
downward.
WEIGHT (W)
The gravitational force exerted on an object is called the object’s weight.
You can find the gravitational force or weight, by using Newton’s 2nd Law…
EQUATIONS Gravitational Force(F)=mass(m) x
acceleration due to gravity(a=9.8 m/s2)
OR Weight(W)=mass(m) x acceleration
due to gravity(a=9.8 m/s2)
***Because gravitational force = weight;
mass ≠ weight
***Massstays the same; WEIGHTchanges due to gravity
WEIGHT AND MASS ARE NOT THE SAME.
WEIGHT is a force due to gravity.
WEIGHT changes when gravity changes.
MASS is a measure of the amount of matter in an object.
MASS always stays the same.
PROBLEM
Mass of a person = 50 kg
What is the weight of this person?
Weight (W)=mass(m) x 9.8 m/s2
W = 50 kg x 9.8 m/s2 = 490 kg x m/s2 or 490 N
PROBLEM
What is my MASS? Mass = 150 poundsConvert to
kilograms 1 kg = 2.2 lbs (CONVERSION
FACTOR) 150 lbs x 1 kg
2.2 lbs = 68.2 kg
PROBLEM What is my WEIGHT? W = mass x 9.8 m/s2 ( accel. due to
gravity)
W = 68.2 kg x 9.8 m/s2
W = 668.4 kg x m/s2
OR 668.4 N
PROJECTILE MOTION Anything that is thrown or shot through
the air is called a projectile. Projectiles follow a curved path, because
they have horizontal and vertical velocities.
Example—
Force from a thrown ball—horizontal velocity
Force from gravity—vertical velocity
RESULT: curved path
CENTRIPETAL FORCE
Centipetal force is a force directed toward the center of the circle for an object moving in a circular motion.
The word “centripetal” means to move toward the __________.
Examples—amusement park rides, bucket/water
CHAPTER 3: FORCES
Section 3—Newton’s Third Law of Motion
NEWTON’S THIRD LAW OF MOTION When one object exerts a force on a
second object, the second one exerts a force on the first that is equal in size and opposite in direction.
OR Another way to say this is “to every
action force there is an equal and opposite reaction force.”
EXAMPLES
Trampoline—you exert a force downward and the trampoline exerts an equal force upward; Rocket propulsion
***Even though the forces are equal, they are not balanced, because they act on different objects
MOMENTUM Momentum is the property of a moving
object. The momentum of an object is the
product of its mass and velocity. Momentum is represented by the
symbol (p) and can be calculated as follows:
Momentum (p) = mass (m) x velocity (v)
The SI unit for momentum is kg x m/s
THE LAW OF CONSERVATION OF MOMENTUM
The law of conservation of momentum states that the total momentum stays the same unless an outside force acts on the objects. Momentum, however, can be transferred from one object to the other.
(P) BEFORE VS. (P) AFTER