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Title: Lecture 2: Newtonian Gravity and Physics Basics

1
Lecture 2Newtonian Gravityand Physics Basics
2
The Big Four Nicholaus Copernicus

Mikolaj Kopernik
Poland, 1473-1543
Primarily active 1512-1540
Planets orbit the Sun, not Earth
Assumed circular orbits, from Greek idea of
perfection

(portrait from Torun, 16th C)
3
The Big Four Johannes Kepler

Germany, 1571-1630
Primarily active 1609-1619
Formulated 3 laws of planetary motion
Planets follow elliptical orbits, not circular
Orbits can be described by simple laws

(portrait from 1610)
4
The Big Four Galileo Galilei

Italy, 1564-1642
Described phases of Venus, uneven surface of the
Moon, sunspots
Discovered the 4 largest moons of Jupiter Io,
Europa, Ganymede, Callisto
Dispelled geocentric theory

(portrait by Justus Sustermans)
5
Keplers 3 Laws of Planetary Motion

Planets revolve in elliptical orbits with the Sun
at one focus
Planets move faster when closer to the Sun (or, a
line sweeps out equal areas in equal times)
P2 ? a3

6
The Big Four Isaac Newton

England, 1643-1727
Around 1680 worked out laws of motion and theory
of gravity

(1689 portrait by Godfrey Kneller)
7
Newtons Laws

1. Every object moves uniformly in a straight
line unless acted upon by a force.
When a force acts, the objects velocity changes
at a rate proportional to the force and inversely
proportional to its mass.
Fgravity ? m1m2/d2

8
Newtonian Gravity
An apple falling from a tree falls towards the
center of mass of the Earth.
The Moon falls around the Earth...
just as the Earth-Moon system falls around the
Sun.
9
Newtonian Gravity - Orbits
10
Newtons Theory Idea of Escape Velocity

Gravity is a force
causes acceleration or deceleration ( negative
acceleration)
g at Earths surface 32 ft/sec/sec 22
mph/sec 9.8 meters/sec/sec
Example
throw something up at 66 mph it stops after 3
sec, then falls back in another 3 sec
How to calculate gravitational pull of a mass
increases with amount of mass 2 ? mass ? 2 ? g
decreases with square of distance from center of
mass
2 ? distance ? g/4

11
Escape Velocity

Competition deceleration vs. weakening of
gravity with distance

12
Escape Velocities of Solar System Bodies
(Sizes not to scale.)
13
Speed of Light

1675 Danish Astronomer Olaus Roemer measured
the speed of light by timing transits of
Jupiters moons.

(Kaufmann, Universe, 4th Ed., p.80)
Today this value is known to be c 186,000
miles/sec 300,000 km/sec 669,600,000 mph
14
Escape Velocity and the Speed of Light

John Michell (1783), Pierre-Simon Laplace (1796)
Question What happens if the escape speed from
an object is greater than the speed of light?
Answer If light consists of particles of
matter, they would not be able to escape.
The Catch Early 19th century idea was that
light is a wave (a disturbance), not a particle
and the black hole idea was forgotten.
until Einstein came along.

15
Absolute Space, Absolute Time
Absolute Space All inhabit the same space Gives our ideas of length, breadth, height All agree on length, breadth, height as long as we make sufficiently accurate measurements (regardless of motion) Absolute Time Universal clock that ticks forward at the same rate everywhere All agree on a span of time as long as we make sufficiently accurate measurements (regardless of motion)
16
Problems with Newtonian Mechanics

Mercurys orbit precesses by 1.38 per orbit.
After accounting for Jupiters gravitational
effects, there is still an extra 0.10.

17
Problems with Newtonian Mechanics

Under Newtonian laws, we expect the speed of
light to depend on how youre moving relative to
absolute space.
The spaceship pilot would measure the speed of
the oncoming light to be 196,000 mi/s.

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Problems with Newtonian Mechanics