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PHYS 2006
Tim Freegarde
Classical Mechanics
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Classical Mechanics
LINEAR MOTION OF SYSTEMS OF PARTICLES
Newton’s 2nd law for bodies (internal forces cancel)
rocket motion
ANGULAR MOTION
rotations and infinitessimal rotations
angular velocity vector, angular momentum, torque
centre of mass
parallel and perpendicular axis theorems
rigid body rotation, moment of inertia, precession
GRAVITATION & KEPLER’S LAWS
conservative forces, law of universal gravitation
2-body problem, reduced mass
NON-INERTIAL REFERENCE FRAMES
centrifugal and Coriolis terms
Foucault’s pendulum, weather patterns
NORMAL MODESboundary conditions, Eigenfrequencies
coupled oscillators, normal modes
planetary orbits, Kepler’s laws
energy, effective potential
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Newton’s law of Universal Gravitation
• Exact analogy of Coulomb electrostatic interaction
• gravitational force between two masses and
• gravitational field
• gravitational potential
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Gravity anomaly
• gravity anomaly = variation from uniform solid
•
NASA/JPL/University of Texas Center for Space Research
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Gravitational attraction of a spherical shell
• Exact analogy of Coulomb interaction
• gravitational field
• gravitational potential
• gravitational force between two masses
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Galilean equivalence principle
inertial mass
• gravitational field
• gravitational motion of mass
Apollo 15, David R Scott (7 August 1971) www.youtube.com/watch?v=MJyUDpm9Kvk
history.nasa.gov/alsj/a15/a15.clsout3.htmlnssdc.gsfc.nasa.gov/planetary/lunar/apollo_15_feather_drop.html
the trajectory of a point-like mass in a gravitational field is independent of the composition and structure of the mass
gravitational mass
• equivalence principle
inertial mass = gravitational mass
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Newton’s law of Universal Gravitation
• Exact analogy of Coulomb electrostatic interaction
• gravitational force between two masses and
• gravitational field
• gravitational potential
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GliderFX
https://www.youtube.com/watch?v=VN_VG07qcPU
https://www.youtube.com/watch?v=9G_djIzd21AProject Gravity
Project H2O
1:47
2:31
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Elliptical orbit
• eccentricity
• constant
• semi latus rectum
• polar equation
• Cartesian equation
• semimajor axis
• semiminor axis
• total energy
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Conic section orbits
• eccentricity
• constant
• semi latus rectum
• polar equation
• Cartesian equation
• semimajor axis
• semiminor axis
• total energy
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Conic section orbits
http://www.personal.psu.edu/smh408/
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Conic section orbits
Alastair Rae
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Conic section orbits
Magnus Manske
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Kepler’s laws
1. Planetary orbits are ellipses with the Sun at one focus
2. The radius vector from Sun to planet sweeps out equal areas in equal times
3. The square of the orbital period is proportional to the cube of the semimajor axis