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PHYS 2006 Tim Freegarde Classical Mechanics
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2 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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3 Conserved quantities 1.gravitational interaction is a CENTRAL FORCE 2.Since, 3.Central (symmetric) forces are CONSERVATIVE angular momentum is conserved, remain in plane perpendicular to total energy is conserved 4.Radial & tangential equations of motion RADIAL ANGULAR
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4 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
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5 Conic section orbits eccentricity constant semi latus rectum polar equation Cartesian equation semimajor axis semiminor axis total energy
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6 Elliptical orbit eccentricity constant semi latus rectum polar equation Cartesian equation semimajor axis semiminor axis total energy
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7 Planetary orbit 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
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8 Effective potential angular momentum conserved where effective potential for radial motion
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9 Yukawa potential angular momentum conserved where attraction between nucleons YUKAWA POTENTIAL precession of perihelion distinct allowed regions for small E alpha decay HIDEKI YUKAWA (1907-1981)
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10 Three-body problem notoriously intractable chaotic motion: STARS OF EQUAL MASS, FIXED POSITIONS total energy conserved angular momentum not conserved, since torque required to hold stars in place tiny difference in initial conditions results in very different trajectory
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11 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 massparallel and perpendicular axis theoremsrigid 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 MODES boundary conditions, Eigenfrequenciescoupled oscillators, normal modes planetary orbits, Kepler’s lawsenergy, effective potential
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