Transcript File

Bell Ringer
What is gravity?
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Bell Ringer
What is gravity?
Gravity is a non-contact attractive force. It is what
keeps us on Earth.
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Attraction?
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So gravity is a force of attraction. That means
that objects feel a “pull” towards each other.
This “pull” is focused on the center of the mass.
This means everything gets pulled in not
“down”.
So far stuff you know, right?
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Center of mass
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We said the “pull” of gravity is towards the
center of mass. What do we remember about
mass? What has mass?
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Center of mass
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We said the “pull” of gravity is towards the
center of mass. What do we remember about
mass? What has mass?
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Right! All matter has mass!
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Why is this important?
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Why?
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Well, if everything has mass then everything
exerts(has) a gravitational force or “pull”
Earth, the Sun, your desk, you, your pencil
Everything is exerting a gravitational “pull” on
everything else!
Sir Issac Newton observed this natural
phenomenon and after much recorded
experimental observations over time we
have.....
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The Law of Universal Gravitation!
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This is a scientific law that states that any two
objects exert a gravitational force of attraction
(“pull”) on each other.
This force can be described as a straight line
between the two objects.
The strength of the force is affected by the
mass and distance of the two objects.
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But...
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If my pencil is exerting a gravitational force on
me, why isn't it stuck to my forehead?
Good question! That is because......
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But...
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If my pencil is exerting a gravitational force on
me, why isn't it stuck to my forehead?
Good question! That is because the masses
are too small.
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Factors affecting Strength of
Gravitational force
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Mass: larger mass means larger force
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Distance: larger distance means smaller force
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Let's explore!
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Mass
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A larger object exerts a stronger/larger
gravitational force. (that is why the arrows are
larger)
A smaller object exerts a weaker/smaller
gravitational force. (that is why the arrows are
smaller)
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Distance
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A shorter distance between the objects means
there will be stronger/larger gravitational force.
(that is why the arrows are larger)
A longer distance between the objects means
there will be weaker/smaller gravitational force.
(that is why the arrows are smaller)
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Gravity and the Formation of Solar
Systems
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A star starts off as a nebula which is basically a
cloud of gas and dust.
Some of the matter in the nebula sticks together
increasing its mass.
More mass means more particles are attracted
and stick together.
So what do you think happens next?
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Gravity and the Formation of Solar
Systems
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That's right—it gets bigger (more massive)
which means more gravity and more particles
are attracted and so on.....
So the “ball” of gas and dust eventually gets so
big its center gets very compacted.
It gets so compacted it starts to get hot then it
combusts. (we will cover this more when we talk
about star life cycle)
Now it is a star....
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Gravity and the Formation of Solar
Systems
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Inside the star there is a lot of activity, this
makes the star spin and spin (rotate)
Some of the mass gets flung off the star.
Over time this mass clumps together into the
planets (kind of like rain drops on the window)
Dense rocky planets are closer to the star
because the heavier elements couldn't go as
far.
Less dense gas planets are further out because
lighter elements traveled farther.
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Gravity and the Formation of Solar
Systems
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These objects are spherical because gravity
pulls matter to the center of the object
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Gravity and the Motion of Solar
Systems
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They revolve around the star for the same
reason.
The star is constantly pulling the planet towards
it ( like a big string) and only the planets forward
velocity keeps it from falling into the star.
What would happen if the planets sped up?
What if they slowed down?
Let's Explore!
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Gravity and the Motion of Solar
Systems
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If the planet slowed down enough it would be
pulled into the star!
If it sped up enough it would fly out of orbit!
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Dear Uni Verse
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Dear Uni Verse is an intergalactic advice
column for concerned celestial bodies.
Uni Verse is ill and has asked us to respond to
some of the letters sent in. Now that you are
experts in gravity I think we can do it.
Lets try some together first.
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Dear Uni Verse
Dear Uni Verse:
I am a large star. One of the planets in my solar
system has an amazing moon! It is the planet that
is the furthest out and while it is a large planet it is
still much smaller than me. I want that moon! I
know that mass is a factor in gravitational force so
why doesn't the moon orbit me? Is there any
thing I can do or will I just have to admire the
moon from afar?
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Distressed by Distance.
Dear Uni Verse
What is the problem in the letter?
What should they do? How can they solve their
problem?
Why should they do that? What facts can we give
to them to reinforce our answer?
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Dear Uni Verse
What is the problem in the letter?
The star is jealous and wants the moon that orbits
the planet.
What should they do? How can they solve their
problem?
There is nothing the star can do.
Why should they do that? What facts can we give
to them to reinforce our answer?
Mass isn't the only factor in gravity, distance is
Copyright
2014 - allcloser
rights reserved to the planet.
too and the moon ©is
much
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Dear Uni Verse
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Now let's take our answers and write a response
to Distressed by Distance.
Dear Distressed by Distance,
I understand you dilemma but unfortunately there is nothing
you can do. While it is true that mass is a factor of
gravitational force, it is not the only factor. Distance affects
gravitational force as well, and it sounds like the moon is much
closer to the planet than it is to you. I am sorry but you will just
have to admire that amazing moon from afar.
Sincerely,
Uni Verse
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Dear Uni Verse
Dear Uni Verse,
I am a newly formed star. I am not sure where I came
from. I hope you can help me. I rotate and I know I am
revolving around something in the center of my galaxy.
What I don't understand is why these other things are
revolving and rotating around ME! Should I be
concerned? Will they keep revolving around me or will
that change? Where did they all come from? I know I
have a lot of questions but this is all so new and I am
overwhelmed. Help me understand!
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Confused Celestial © Copyrightwww.cpalms.org
Dear Uni Verse
What is the problem in the letter?
What should they do? How can they solve their
problem?
Why should they do that? What facts can we give
to them to reinforce our answer?
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Dear Uni Verse
What is the problem in the letter?
The star is new and it doesn't understand it's solar system.
What should they do? How can they solve their problem?
They shouldn't be worried, it is all normal.
Why should they do that? What facts can we give to them to
reinforce our answer?
The objects revolving around the star are probably planets and
they are revolving around the star because of the pull of gravity. It
is kind of like a string holding the planets in orbit. They will orbit
around the star for a very long time. The planets probably came
from left over material that spun off as the star formed and rotated.
Your Turn, Take our answers
and write a response to Confused
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Celestial.
Dear Uni Verse
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Let's share some of our responses!
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Group Work
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Work with your groups to answer the letters to
Dear Uni Verse.
Make sure you are responding in letter form.
Give the letter writer a solution and back up
your answer with facts about gravity.
Ask yourself:
What is the problem in the letter?
What should they do? How can they solve their
problem?
Why should they do that? What facts can we give
to them to reinforce
our answer?
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