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Homework #4

Homework #4. A set of keys is dropped from the top of the Empire State building in New York. How fast will they be going when they hit a poor tourist on the ground 9 seconds later? How tall is the Empire State Building?

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Homework #4

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  1. Homework #4 • A set of keys is dropped from the top of the Empire State building in New York. How fast will they be going when they hit a poor tourist on the ground 9 seconds later? • How tall is the Empire State Building? • An astronaut drops his set of keys from the same height as the Empire State Building on the Moon (1/6th the gravity of Earth), how fast is it going when it hits the Lunar surface?

  2. Who cares about momentum (mv)? Conservation of linear Momentum • In the absence of a net force, the total linear momentum of a system remains constant. But this is just Newton’s first law!! mv = constant

  3. Conservation of Angular Momentum • In the absence of a net torque, the total angular momentum of a system remains constant.

  4. M1M2 d2 Fga Universal Law of Gravitation Between every two objects there is an attractive force, the magnitude of which is directly proportional to the mass of each object and inversely proportional to the square of the distance between the centers of the objects.

  5. M1M2 d2 Fg= G G = 6.67 x 10-11 Nm2/kg2

  6. circumference = 2pR F = G R G R 2 2 R F = a F = a = = F = a = 2 2 v / R v / R 2 v = G /R m m m m m m m m m m m m m m 2 2 2 4p R / P = G /R 1 2 2 1 1 2 2 1 2 1 1 1 2 1 2 3 2 4p R = G P v = 2pR / P P2 = (4p2/Gm2) R3

  7. Orbital Paths • Extending Kepler’s Law #1, Newton found that ellipses were not the only orbital paths. • possible orbital paths • ellipse (bound) • parabola (unbound) • hyperbola (unbound)

  8. Changing Orbits orbital energy = kinetic energy + gravitational potential energy conservation of energy implies: orbits can’t change spontaneously An object can’t crash into a planet unless its orbit takes it there. An orbit can only change if it gains/loses energy from another object, such as a gravitational encounter: If an object gains enough energy so that its new orbit is unbound, we say that it has reached escape velocity.

  9. Tides • Since gravitational force decreases with (distance)2, the Moon’s pull on Earth is strongest on the side facing the Moon, and weakest on the opposite side. • The Earth gets stretched along the Earth-Moon line. • The oceans rise relative to land at these points.

  10. Tides • Every place on Earth passes through these points, called high tides, twice per day as the Earth rotates. • High tides occur every 12 hours 25minutes • remember, the Moon moves! • The Sun’s tidal effect on Earth is not as strong. • the ratio Earth’s diameter : distance to Sun is much less than ratio Earth’s diameter : distance to Moon • When the Sun & Moon pull in the same direction (new & full phases) • high tide is higher than usual (spring) • When the Sun & Moon pull at right angles (first & last quarter phases) • high tide is lower than usual (neap)

  11. Tidal Friction • This fight between Moon’s pull & Earth’s rotation causes friction. • Earth’s rotation slows down (1 sec every 50,000 yrs.) • Conservation of angular momentum causes the Moon to move farther away from Earth.

  12. Synchronous Rotation • …is when the rotation period of a moon, planet, or star equals its orbital period about another object. • Tidal friction on the Moon (caused by Earth) has slowed its rotation down to a period of one month. • The Moon now rotates synchronously. • We always see the same side of the Moon. • Tidal friction on the Moon has ceased since its tidal bulges are always aligned with Earth.

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