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ASTR 111

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Lecture 9 ASTR 111 Section 002 Outline Exam Results Finish Chapter 4 Kepler s Laws Review Newton s Laws Exam Results If the moon's orbit was in the ecliptic ... – PowerPoint PPT presentation

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Title: ASTR 111


1
Lecture 9
  • ASTR 111 Section 002

2
Ptolmey
Copernicus
Brahe
Kepler
Galileo (Galilei)
Newton
3
Outline
  • Exam Results
  • Finish Chapter 4
  • Keplers Laws Review
  • Newtons Laws

4
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5
Exam Results
6
  • If the moon's orbit was in the ecliptic plane
    instead of being tilted, there would be a lunar
    and solar eclipse every month. How many times per
    year would a lunar eclipse occur during the first
    quarter moon?1. once per month.2. Once per
    year.3. 6 times per year.4. Never.

7
  • On the day that someone on Earth says it is a new
    moon, what will a person on the moon say when
    they look at Earth?Assume that on this day there
    is not an eclipse.

8
Kepler proposed elliptical paths for the planets
about the Sun
  • Using data collected by Brahe, Kepler deduced
    three laws of planetary motion
  • the orbits are ellipses
  • a planets speed varies as it moves around its
    elliptical orbit
  • the orbital period of a planet is related to the
    size of its orbit

9
Kepler proposed elliptical paths for the planets
about the Sun
  • Using data collected by Brahe, Kepler deduced
    three laws of planetary motion
  • the orbits are ellipses
  • a planets speed varies as it moves around its
    elliptical orbit
  • the orbital period of a planet is related to the
    size of its orbit

10
Lingering questions
  • Keplers laws are not so clean
  • Need to explain
  • Why orbits of planets are elliptical
  • Why distance from Sun is related to orbital
    period
  • Why planet velocity changes during orbit
  • Also want a recipe that gives good predictions of
    when eclipses will occur, where the planets will
    be in the future.

11
Lingering questions
  • Keplers laws are not so clean
  • Need to explain
  • Why orbits of planets are elliptical
  • Why distance from Sun is related to orbital
    period
  • Why planet velocity changes during orbit
  • Why people on the south pole dont fall into
    space
  • Also want a recipe that gives good predictions of
    when eclipses will occur, where the planets will
    be in the future.

12
Isaac Newton
  • Isaac developed three principles, called the
    laws of motion, that apply to the motions of
    objects on Earth as well as in space

13
Isaac Newton
  • Isaac was a little nutty See short biography
    Newton by James Gleick

14
Newts Principles (Laws of Motion)
  1. The law of inertia a body remains at rest, or
    moves in a straight line at a constant speed,
    unless acted upon by a net outside force
  2. F m x a the force on an object is directly
    proportional to its mass and acceleration,
    provided the mass does not change
  3. The principle of action and reaction whenever
    one body exerts a force on a second body, the
    second body exerts an equal and opposite force on
    the first body

15
Group Question
  • An object at rest tends to stay at rest. An
    object in motion tends to stay in motion.
  • What is wrong with this statement?
  • Why dont we observe objects in motion tending
    to stay in motion more often?

16
Group Question
  • An object at rest tends to stay at rest. An
    object in motion tends to stay in motion
  • What is wrong with this statement? Need to add
    unless acted on by an external force.
  • Why dont we observe objects in motion tending
    to stay in motion more often?

17
Newtons Law of Universal Gravitation
A number (T.B.D.)
Mass m2
Mass m1
18
  • Mass and Weight are not the same
  • Mass refers to how much stuff is in an object
    (atoms, molecules, etc).
  • Weight refers to how much that stuff will push
    down on a scale. This depends on what planet you
    are on.

19
Newtons Law of Universal Gravitation
Mass m1
A spring
Weight is a number that tells you about how much
this spring will compress. If your mass is m2,
your weight depends on m1 and r.
r
Mass m2
20
How to get Weight mass x gravity
Mass of Earth
m/s2
Radius of Earth
21
What about Bob Beamon?
22
  • The law of universal gravitation accounts for
    planets not falling into the Sun nor the Moon
    crashing into the Earth

23
v
v
m2
m2
(You will need to take my word on this equation)
24
Now suppose Earth provides pull instead of
string and arm
v
v
m2
m1
m2
25
(Force needed to keep it in orbit)
(Force that can be provided)
26
Is this right?
  • G 6.7 x 10-11 N.m2/kg2
  • m1 2 x 1030 kg
  • Mars
  • Orbital velocity 24 km/s
  • Distance from Sun 228 x 109 km
  • Earth
  • Orbital velocity 30 km/s
  • Distance from Sun 150 x 109 km

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Compare
  • Keplers 3rd law relates orbital speed and radius
  • Newtons law of gravitation was used to derive a
    relationship between orbital speed and radius
  • Both will give the same answer. Which is
    better?

29
To get something in orbit, you need a special
horizontal velocity
  • The law of universal gravitation accounts for
    planets not falling into the Sun nor the Moon
    crashing into the Earth
  • Paths A, B, and C do not have enough horizontal
    velocity to escape Earths surface whereas Paths
    D, E, and F do.
  • Path E is where the horizontal velocity is
    exactly what is needed so its orbit matches the
    circular curve of the Earth

30
http//www.valdosta.edu/cbarnbau/astro_demos/fram
eset_gravity.html
31
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32
Question
  • How far would you have to go from Earth to be
    completely beyond the pull of gravity?
  • Suppose the Earth was 2x its current radius (with
    the same mass). How would your mass change? How
    would your weight change?

33
  • How far would you have to go from Earth to be
    completely beyond the pull of gravity? r
    infinity
  • Suppose the Earth was 2x its current radius (with
    the same mass). How would your mass change? How
    would your weight change? mass unchanged. r
    increases to 2r so weight goes down by 1/221/4

34
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35
  • Given that Earth is much larger and more massive
    than the Moon, how does the strength of the
    gravitational force that the Moon exerts on Earth
    compare to the gravitational force that Earth
    exerts on the Moon? Explain your reasoning.
  • Consider the following debate between two
    students about their answer to the previous
    question. Do you agree or disagree with either or
    both students? Explain.
  • Student 1 I thought that whenever one object
    exerts a force on the second object, the second
    object also exerts a force that is equal in
    strength, but in the other direction. So even if
    Earth is bigger and more massive than the Moon,
    they still pull on each other with a
    gravitational force of the same strength, just in
    different directions.
  • Student 2 I disagree. I said that Earth exerts
    the stronger force because it is way bigger than
    the Moon. Because its mass is bigger, the
    gravitational force Earth exerts has to be bigger
    too. I think that you are confusing Newtons
    third law with the law of gravity..

36
  • How would the strength of the force between the
    Moon and Earth change if the mass of the Moon
    were somehow made two times greater than its
    actual mass?

37
  • Given that Earth is much larger and more massive
    than the Moon, how does the strength of the
    gravitational force that the Moon exerts on Earth
    compare to the gravitational force that Earth
    exerts on the Moon? Explain your reasoning.
    Same. Netwons third law.

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39
  • Consider the following debate between two
    students about their answer to the previous
    question. Do you agree or disagree with either or
    both students? Explain.
  • Student 1 I thought that whenever one object
    exerts a force on the second object, the second
    object also exerts a force that is equal in
    strength, but in the other direction. So even if
    Earth is bigger and more massive than the Moon,
    they still pull on each other with a
    gravitational force of the same strength, just in
    different directions.
  • Student 2 I disagree. I said that Earth exerts
    the stronger force because it is way bigger than
    the Moon. Because its mass is bigger, the
    gravitational force Earth exerts has to be bigger
    too. I think that you are confusing Newtons
    third law with the law of gravity.

40
m1
m2
41
  • How would the strength of the force between the
    Moon and Earth change if the mass of the Moon
    were somehow made two times greater than its
    actual mass? Two times greater

42
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43
Earth
Mars
  • In the picture, a spaceprobe traveling from Earth
    to Mars is shown at the halfway point between the
    two (not to scale).
  • On the diagram, clearly label the location where
    the spaceprobe would be when the gravitational
    force by Earth on the spacecraft is strongest.
    Explain.
  • On the diagram, clearly label the location where
    the spaceprobe would be when the gravitational
    force by Mars on the spacecraft is strongest.
    Explain your reasoning.
  • When the spacecraft is at the halfway point, how
    does the strength and direction of the
    gravitational force on the spaceprobe by Earth
    compare with the strength and direction of the
    gravitational force on the spaceprobe by Mars.
    Explain your reasoning.

44
Earth
Mars
  • On the diagram, clearly label the location where
    the spaceprobe would be when the gravitational
    force by Earth on the spacecraft is strongest.
    Explain. m1 and m2 dont change. Force
    increases when r decreases.

45
Earth
Mars
  • On the diagram, clearly label the location where
    the spaceprobe would be when the gravitational
    force by Mars on the spacecraft is strongest.
    Explain. m1 and m2 dont change. Force
    increases when r decreases.

46
Earth
Mars
FMars
FEarth
  • When the spacecraft is at the halfway point, how
    does the strength and direction of the
    gravitational force on the spaceprobe by Earth
    compare with the strength and direction of the
    gravitational force on the spaceprobe by Mars. r
    is same, mship is same. Only thing left is
    mEarth vs. mMars

47
Earth
Mars
  • If the spaceprobe had lost all ability to control
    its motion and was sitting at rest at the
    midpoint between Earth and Mars, would the
    spacecraft stay at the midpoint or would it start
    to move.
  • If you think it stays at the midpoint, explain
    why it would not move.
  • If you think it would move, then (a) Describe the
    direction it would move (b) describe if it would
    speed up or slow down (c) describe how the net
    (or total) force on the spaceprobe would change
    during this motion and (d) identify when/where
    the spaceprobe would experience the greatest
    acceleration.

48
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49
Earth
Mars
  • Where would the spaceprobe experience the
    strongest net (or total) gravitational force
    exerted on it by Earth and Mars? Explain your
    reasoning.

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51
Earth
Mars
  • Imagine that you need to completely stop the
    motion of the spaceprobe and have it remain at
    rest while you perform a shutdown and restart
    procedure. You have decided that the best place
    to carry out this procedure would be at the
    postion where the net (or total) gravitational
    force on the spaceprobe by Mars and Earth would
    be zero. On the diagram, label the location
    where you would perform this procedure. (Make
    your best guess there is no need to perform any
    calculations here.) Explain the reasoning behind
    your choice.
  • Your weight on Earth is simply the gravitational
    force that Earth exerts on you. Would your
    weight be more, less, or the same on the Mars.
    Explain your reasoning.

52
Sun
Earth
1
2
3
5
4
53
Orbital Mechanics
http//www.colorado.edu/physics/2000/applets/satel
lites.html
54
Tides
http//en.wikipedia.org/wiki/Tide
55
Video
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