Download Gravity - Model High School

Gravity
and
the
Laws
of
Motion
Mass
 Mass
is the amount of
“stuff” (matter) in an object.
 Measured in grams
(kg, mg, cg, etc.)
 Mass will not change
unless matter is added or
taken away.
Weight

Weight is the gravitational force
exerted on an object by Earth
(or the moon, Jupiter, Sun, etc.)
 It is a FORCE so it’s measured in
Newtons (N).
 Weight can change
depending on where
you are located.
Galileo Galilei 1564-1642

Italian astronomer
and physicist

First true
“Experimentalist”.

Set forth the basic
ideas of Motion.
All objects fall at
the same rate.
(heavy or light!)
Sir Issac Newton 1643-1727

English mathematician
and physicist

Laws of MOTION
Quick Review of Newton’s
discoveries…

Laws




1st Law – The Law of Inertia
2nd Law – acceleration = Force  mass
3rd Law – Forces occur in action-reaction pairs
Acceleration due to gravity, g


All objects regardless of their mass are accelerated
equally by gravity
Since this acceleration is so important to the motion
of all objects on the surface of the earth it is
assigned g = 9.8 m/s2 (or 10 m/s2)
What is gravity?
Gravity – the force that pulls objects
toward the earth.
Gravity Continued…
Freefall - An object accelerates as it falls.
Near the earth objects fall at the
same rate regardless of their mass.
g = 9.8 m/s2
Gravity continued…

Law of Universal
Gravitation
This law states
that the force of
Gravity acts
between all
objects in the
universe.
Newton & Gravity
 Isaac
Newton was the first to
deduce that the force that
makes an apple fall is the
same force that keeps the
moon in its orbit.
 But then he asked himself…
 Does
the falling apple exert a
force on the earth?
 Why doesn’t the moon fall into
the earth?
Gravity . . .
 The
apple DOES exert a force on the
Earth!
 Does
 The
the Earth notice? Why?
moon IS falling!
 HUH?!?
Satellite Motion!
 Newtonian
Mountain
Space Dangers
The Story of 9.8…

From before we know that a 1 kg mass
exerts a force of 9.8 N on the Earth
because…
Fweight = mass x gravity
Fw = (1kg)(9.8 m/s2)
Fw = 9.8 N

Where did this “9.8” come from in the first
place?
The Story of 9.8…
1 kg mass
distance = radius
Earth

mobject mEarth
m1m2
F  G 2 becomes... F  G
d
rEarth 2

F   6.67 10

F = 9.8 N
11
N  m / kg
2
2
1kg  5.97 x 1024 kg 

2
 6.38 x 106 m 
Acceleration due to Gravity at
Different Places on Earth…
g
varies slightly due to differences
in the distance from the center of
the earth (altitude or latitude)
 North
Pole
 Panama Canal
 New York City
 Denver
g = 9.832 m/s2
g = 9.782 m/s2
g = 9.803 m/s2
g = 9.796 m/s2
Acceleration due to gravity on
Different Planets…
These depend on
the planet’s mass
and radius.
Jupiter
Neptune
Saturn
Uranus
Earth
Venus
Mercury
Mars
Pluto
Moon
2.54 x g
1.20 x g
1.06 x g
0.92 x g
1.00
0.92 x g
0.38 x g
0.38 x g
uncertain
0.16 x g
Acceleration due to gravity depends
on the planet’s mass and radius.
Acceleration due to gravity depends
on the planet’s mass and radius.
Acceleration due to gravity depends
on the planet’s mass and radius.
Guess your weight on Mars!
This website will tell you how
much you would weigh if you
were on any of the other
planets.
http://www.exploratorium.edu/ronh/w
eight/index.html
Newton’s Universal Law of
Gravitation
 Depends

Mass of the two attracting objects (m1 & m2)


Directly proportional
Distance between the two objects (d)


on…
Inversely proportional
Universal Gravitation Constant (G)

G = 6.67 x 10-11 Nm2/kg2
Ya’
Gotta
Obey
the
Law!
Who are you attracted
to??
Maybe not
Romantically by
definitely
Gravitationally!
Two bodies are attracted
to each other due to
their mass and the
distance between them.
Why don’t we always feel a
gravitational attraction?
In order for a
gravitational
attraction to be felt
the mass of one of
the bodies must be
very large. The earth
is many times more
massive than you
are. You can sense
the Force of
Attraction.
Kepler’s First Law
 All
planets move about the sun in an
elliptical orbit. In an elliptical orbit the
distance between the planet and the
sun is continuously varying:
Why do we have seasons?
Are we closer to the
sun in summer?
And farther
away in the
winter?
What does the earth’s
revolution around the sun
cause?
 The
earth is
tilted on its axis
23.5 degrees.
to the plane of
the earth’s orbit
around the sun
Seasons
Mid-latitudes enjoy
a change of
seasons.
Earth Revolution
APHELION / PERIHELION
“Helios” - Greek
word for sun
Prefix “Ap” means farthest
Prefix “Peri” means closest
Which way did it go?
Better watch
out for the
cops!