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Chapter 7 Gravitation

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Title: Chapter 7 Gravitation


1
Chapter 7 Gravitation
  •  
  • In this chapter you will
  •  
  • Learn the nature of gravitational force.
  • Relate Keplers laws of planetary motion to
    Newton's laws of motion.
  • Describe the orbits of planets and satellites
    using the law of universal gravitation.

2
Chapter 7 Sections
  • Section 7.1 Planetary Motion and Gravitation
  • Section 7.2 Using the Law of Universal
    Gravitation

3
SECTION 7.1 PLANETARY MOTION AND GRAVITATION
  • Objectives
  • Relate Keplers laws to the law of universal
    gravitation.
  • Calculate orbital speeds and periods.
  • Describe the importance of Cavendishs experiment.

4
INTRODUCTION
  • Nicholas Copernicus a Polish astronomer, that
    observed the movements of the planets revolved
    around the Sun, his book was published in 1543.
  • Tycho Brahe a Dutch astronomer. At the age of
    14 saw an eclipse of the sun and vowed to become
    an astronomer. He believed the moon and Sun
    revolved around Earth and all other planets
    revolve around the Sun.

5
KEPLERS LAWS
  • Johannes Kepler a German astronomer. He was an
    assistant of Brahe. When Brahe died he inherited
    30 years worth of observations and from this
    data he was able to develop 3 laws of planetary
    motion. He believed in a Sun centered universe.
  •  
  • Keplers First Law states that the paths of the
    planets are ellipses with the Sun at one focus.
  •  
  • Comets are divided into 2 groups.
  • Long Period Comets (Orbital Period over 200
    years.)
  • Short Period Comets (Orbital Period under 200
    years. Halleys)
  • Kepler noticed that the planets move faster when
    they are closer to the sun and slower when they
    are farther away from the sun.

6
KEPLERS LAWS
  • Keplers Second Law states that an imaginary
    line from the Sun to a planet sweeps out equal
    areas in equal time intervals. (Fig. 7.3)
  • Keplers Third Law states that the square ratio
    of the periods of any 2 planets is equal to the
    cube of the ratio of their average distances from
    the sun.
  • (TA / TB)2 (rA / rB)3
  •  
  • Table 7.1 p. 173 will be used throughout this
    chapter.

7
KEPLERS LAWS
  • Do Example Problem 1 p. 174
  • (TC / TI)2 (rC / rI)3
  • (16.7 / 1.8)2 (rC / 4.2)3
  • (9.28)2 rC3 / 74.088
  • 86.1184(74.088) rC3
  • 6380.34 rC3
  • 18.55 units rC
  • Do Practice Problems p. 174 1-5

8
NEWTONS LAW OF UNIVERSAL GRAVITATION
  • Sir Isaac Newton started studying planetary
    motion in 1666. He found that the Force varies
    inversely with the square of the distance between
    the centers of the planet and the sun. Force (F)
    is proportional to 1 / r2.
  •  
  • Gravitational Force the attractive force
    between 2 objects that is directly proportional
    to the mass of the objects.
  •  

9
NEWTONS LAW OF UNIVERSAL GRAVITATION
  • Newtons Law of Universal Gravitation states
    that objects attract other objects with a force
    that is proportional to the product of their
    masses and inversely proportional to the square
    of the distance between them. The Gravitational
    Force is equal to the Universal Gravitational
    Constant, times the mass of object 1, times the
    mass of object 2 divided by the distance between
    the centers of the objects squared.
  • F G(m1m2 )
  •   r2
  • Go over the Connecting Math to Physics Table at
    bottom of p. 175.

10
UNIVERSAL GRAVITATION AND KEPLERs THIRD LAW
  • Period of a Planet Orbiting the Sun equals 2?
    times the square root of the orbital radius cubed
    divided by the product of the universal
    gravitational constant and the mass of the Sun.
  • ______________
  • T 2? v (r3 / (G ms) )

11
MEASURING THE UNIVERSAL GRAVITATIONAL CONSTANT
  • Henry Cavendish an Englishman that calculated
    the attractive force between 2 objects (G). He
    found the value for G by substituting into the
    Law of Universal Gravitation. His experiment is
    called Weighing Earth because it helped
    determine Earths mass.
  •  
  • The value of G is 6.67 x 10-11 Nm2/kg2 if you use
    m1 and m2 measured in kg and r in meters and F in
    Newtons.
  •  
  • Read through p. 178 and go over example.
  • Do 7.1 Section Review p. 178 6-11
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