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Universal Gravitation

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Geostationary Orbit. Perturbing Orbits. Universal Gravitation. The Tyconic system was named after Tyco Brahe, a Danish astronomer who was a ... – PowerPoint PPT presentation

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Title: Universal Gravitation


1
Universal Gravitation
  • Newtons 4th law

2
Universal Gravitation
  • Keplers Laws
  • Newtons Law of Universal Gravity
  • Applying Newtons Law of Universal Gravity

3
Universal GravitationKey Terms
  • Tyconic system
  • Keplers Laws
  • Universal Gravity
  • Kepler Constant
  • Angular Momentum
  • Eccentricity of Orbits
  • Torsion Balance
  • Microgravity
  • Geostationary Orbit
  • Perturbing Orbits

4
Universal Gravitation
  • The Tyconic system was named after Tyco Brahe, a
    Danish astronomer who was a mentor to Johannes
    Kepler. In his system, the Earth was at the
    centre of the universe. The sun and moon orbited
    the earth and the other planets revolved about
    the sun.

5
Universal Gravitation
  • lpc1.clpccd.cc.ca.us/.../ahistlec.htm

6
Keplers Laws
  • Planets move in elliptical orbits, with the Sun
    at one focus of the ellipse.
  • An imaginary line between the Sun and a planet
    sweeps out equal areas in equal time areas.
  • The quotient of the mean radius of revolution
    cubed and the square of the period of revolution
    is constant and the same for all planets r3/T2
    k

7
Universal Gravity
  • Newton reasoned that the attractive force which
    made an apple fall to the ground was the same
    force between the sun and the Earth and the Earth
    and the Moon . He concluded that these were force
    pairs and that every object must attract every
    other object. He summarized

8
Universal Gravity
  • The force of gravity between any two objects is
    proportional to the product of their masses and
    inversely proportional to the square of the
    distance between their centres.
  • F1,2 G (m1 m2 ) / (r1,2)2
  • G is the universal gravitational constant
    (determined by Cavendish) as 6.67 x 10-11 Nm2/kg2
  • It should not be confused with g 9.81 m/s2

9
Reconciling Keplers 3rd with Newtons 4th
  • Consider the sun and a planet
  • Fgrav G (ms mp) / (r)2
  • Suns gravitational force supplies centripetal
    force for planets orbit, so
  • G (ms mp) / (r)2 mpv2/r but v 2pr/T
  • G ms/ (r)2 (2pr/T)2 and rearranging
  • r3/T2 G ms/ (4p)2
  • Although this example involves the sun and a
    planet, it applies to all orbital motion

10
Finding the mass of the sun without a scale ?
  • r3/T2 G ms/ (4p)2 , rearranging,
  • ms (4p2 /G)(r3/T2) 1.97 x 1030 kg
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