Lesson 2: The Ancient Roots, Ancient Greek, Copernican Revolution, Galileo, Newton, Nature of Science

Question 1

What are some of humanity’s connections to astronomy socially, philosophically, practically?

what was it used for/practiced

Answer 1

It was often practiced for practical reasons
1. In keeping track of time and seasons
→ For civil organizations (religious, agriculture, etc.)
2. In aiding navigation

Question 2

How do we know ancient humans had a good grasp of the patterns of astronomy (sunrise/sunset/eclipses/etc)

what did the Egyptians exactly do to keep track of the Sun

Answer 2

Track the constellations that were ahead of the Sun
* Ex. These next 12 constellations need to rise for the Sun to come up again

Our 24 hour day/clock comes from the Egyptians trying to track when the sun is going to come up

Question 3

Provide some basic examples from other cultures on how we know they understood astronomical ideas.

Egyptians and the Flood

Answer 3

Ancient Egyptians tracked the sky so they could predict when the Nile would flood;
Sirius: brightest star in the sky that rises in Summer
* When they see the star Sirius, they know the river will flood soon

The heliacal rise of Sirius: predicts Nile’s annual flood and therefore marks the New Year; occurs on July 20th

Question 4

How was the size of the Earth first estimated in 240 BCE?

Answer 4

Eratosthenes (astronomer) took the distance between Syene to Alexandria to find Earth’s circumference
Sun was at 7° from zenith
or about 1/50 of a complete circle

Question 5

What are the geocentric and heliocentric view of the universe? What did Plato and Aristotle believe? What did their model of the universe have trouble explaining?

Answer 5

Geocentric model: the earth as the center
* Plato and Aristotle both believed that earth is the centre
* didn’t explain the retrograde motion

Heliocentric model: the sun as the center

Question 6

How was the motions of the planets explained in Ptolemy’s geocentric model?

explain Ptolemy’s model and the motion

Answer 6

The most sophisticated geocentric model was that of Ptolemy — the Ptolemaic Model

• the Ptolemaic model had each planet move on a small circle whose center moves around Earth on a larger circle
• showed that planets really (apparent motion) do go backwards model

Question 7

How does stellar parallax motion prove that the Earth is moving?

define Parallax as well

Answer 7

Parallax: the perceived shift of an object relative to its background due to the observer’s motion

Stellar Parallax: the shift of stars due to Earth’s motion through space. Closer stars shift more than distant stars
* If earth is moving around the sun, so then stars should shift their positions
* so the geocentric model couldn’t explain why stars were getting closer

Question 8

How did the rise of the Islamic world contribute to our understanding of astronomy?

vaguely

Answer 8

The rise of Islam and the Muslim world preserved and enhanced the knowledge that received from Greeks

Question 9

What was the celestial realm?

Hint: heaven

Answer 9

Most ancient Greek philosophers believed the Moon, the Sun, the planets and the stars moved on crystal spheres surrounding an unmoving Earth
* The ‘celestial realm’ is where only ‘perfect’ forms such as spheres and circles are found

Question 10

What is the Copernican revolution?

Answer 10

• purposed the Sun-centered model

shift in the field of astronomy from a geocentric understanding of the universe, centred around Earth, to a heliocentric understanding, centred around the Sun

Question 11

What did Copernicus, Tycho, and Kepler contribute to our shift to a heliocentric view of the universe?

2 points (about circles)

Answer 11

○ Perfect circles around the sun is not true
○ Orbits don’t have to be circular

Question 12

What are Kepler’s 3 laws of motion? Why are they so important?

Answer 12

Kepler’s First Law: Planets move in elliptical orbits with the Sun as a focus

Kepler’s Second Law: When a planet is closer to the Sun, it travels faster and travels slower when its farther from the Sun

Kepler’s Third Law: A planet’s orbital period is proportional to the size of its orbit
* the farther a planet is from the Sun, the longer the orbital period

Question 13

How did Galileo contribute to our understanding of the universe?

what did he support

Answer 13

• supported the Sun was at the centre

Question 14

Describe Galileo’s telescope observations and how they challenged the prevailing ideas of a geocentric universe.

aganist the second and third objection (Hint: Moon, Sun, and Stars)

Answer 14

For the second objection (Noncircular orbits are not “perfect” as heavens should be)

Using a telescope, Galileo saw:
* Mountains and valleys on the Moon (proving it is not a perfect sphere)
* Sunspots on the Sun .. “Imperfections”

For the third objection (If Earth were really orbiting the Sun, we should detect stellar parallax )

Using a telescope, Galileo saw:
* the Milky Way has countless individual stars
* Planets and stars looked very different under magnification
→ If stars remained point-like under magnification, they must be MUCH farther away than the planets, lack of detectable parallax was no longer so troubling

Question 15

How did Galileo definitively prove that Ptolemy’s model was incorrect?

two main things (hint: Jupiter and Venus)

Answer 15

1. Galileo’s Observations in Starry Messenger: Jupiter’s 4 brightest moons (showed that if Jupiter can move with its moons, so can Earth)
2. Galileo saw gibbous Venus. This is only possible if Venus orbits the Sun, as in the Copernican or Tychonic system; impossible in the Ptolemaic Model, and therefore Ptolemy’s model is obsolete

Question 16

What is Newton’s universal law of gravitation?
* 3 laws

Answer 16

1. Every mass attracts every other mass
2. Attraction is directly proportional to the product of their masses
   * Increase the mass of M1, the gravitational pull will be larger
3. Attraction is inversely proportional to the square of the distance between their centres
   * Increase distance, the gravitational pull will be smaller

Question 17

What is centre of mass?

Answer 17

The mass of the two objects determines their orbit which will create the centre of mass
* If earth was larger in mass, the centre of mass would be closer to earth, then planets closet will orbit around earth

Objects orbit around their centre of mass, where most of the mass is

Question 18

How does Kepler’s 3rd law help us determine the mass of something in space?

Answer 18

Newton’s laws of gravity and motion showed that the relationship between the orbital period and average orbital distance of a system tells us the total mass of the system

• Earth’s orbital period (1 year) and average distance (1 au) tell us the Sun’s mass
• Orbital period and distance of a satellite from Earth tell us Earth’s mass

Question 19

What is Mass? Gravity? Weight?

Answer 19

Mass: An object is the sum of all its atoms

Gravity: general force of attraction between all material bodies

Weight: the strength of gravity exerted by a planet (or moon, star, etc) on an object in the planet’s gravity field

Question 20

What are Newton’s laws of motion?

Answer 20

1. An object moves at constant velocity unless a net force acts to change its speed or direction
2. The acceleration (a) of an object due to a force (F) is related to the object’s mass
3. For every force, there is always an equal and opposite reaction force

Question 21

What is science? what is non-science?

define hypothesis, scientific theory

Answer 21

Science: seeks explanations that rely solely on natural causes; progresses through the creation and testing of models of nature; models must make testable predictions

+ hypothesis: making an educated guess
+ scientific theory: is a fact; be supported by a compelling body of evidence, has NOT have failed any crucial test of its validity

Question 22

What are some ‘hallmarks’ of science?

three hallmarks

Answer 22

Hallmarks of Science #1
* Modern science seeks explanations for observed phenomena that rely solely on natural causes
(A scientific model cannot include divine intervention)

Hallmarks of Science #2
* Science progresses through the creation and testing of models of nature that explain the observations as simply as possible

Hallmarks of Science #3
* A scientific model must make testable predictions about natural phenomena that would force us to revise or abandon the model if the predictions do not agree with observations

Question 23

What is the definition of cosmology?

Answer 23

Cosmology: the basic structure and origin of our structure of the cosmos

Question 24

Why did Aristotle know that the Earth was round, over 2000 years ago?

two points (Hint: moon, traveling from north to south)

Answer 24

1. The Moon enters or emerges form Earth’s shadow during an lunar eclipse - shape of shadow is always round
2. He explained that travelers would go to the south and notice stars from the north were not visible anymore - traveller must have moved over a curved surface of the Earth

Question 25

Which early Greek philosopher believed the Earth to be orbiting the Sun (ie, aheliocentric universe)?

Answer 25

Aristarchus of Samos

Question 26

From Astronomy Basics, understand the three reasons why we know the Earth is spherical.

three points (ship, ISS, sun location)

Answer 26

1. ships sinks below the horizon, with the hull disappearing first and the mast remaining visible for a while longer.
2. the International Space Station circles Earth once every 90 minutes or so. Photographs taken from the shuttle and other satellites show that Earth is round from every perspective.
3. the Sun would be high in the sky in other time zones the sun would be rising, setting, or completely out of sight

Question 27

Explain how Eratosthenes was able to measure, not only that the Earth was round, but the size of the sphere of the Earth.

Hint: sun rays

Answer 27

Eratosthenes measured the size of Earth by observing the angle at which the Sun’s rays hit our planet’s surface.

Question 28

Who is Hipparchus, and what is precession?

(hint: star brightness and make an discovery about earths axis)

Answer 28

Hipparchus, was a astronomer who divided the stars into apparent magnitudes: a stars ranked by their apparent brightness
Made the discovery: the position in the sky of the north celestial pole had altered over the previous century and a half

Precession: the direction in which Earth’s axis points does indeed change slowly but regularly

Question 29

define Retrograde motion

Answer 29

The temporary apparent westward motion of a planet as Earth swings between it and the Sun

Question 30

How did Ptolemy’s model of the universe (a geocentric model) explain the apparent retrograde motion of planets on the sky?

Answer 30

he created the Epicycle: a circle in which a planet moves and which has a center that is itself carried around at the same time on the circumference of a larger circle

Question 31

What is an ellipses major axis? what is its semimajor axis?

Answer 31

Major axis: widest diameter of the ellipse
Semimajor axis: the distance from the centre of the ellipse to on end
* Is equal to the planets average distance to the sun

Question 32

What are the positions of the two pins affects the size/shape/ellipticity of the ellipse.

Answer 32

Two points inside the ellipse are called its foci (singular: focus)
* The ‘roundness’ of the eclipse depends on how close the foci are compared to these axis

Question 33

What is orbital speed?

Answer 33

Orbital speed: the speed of each planet along with the ellipse

Question 34

What is momentum?

Answer 34

mass in motion, not likely to stop / remains unchanged

Question 35

What is inertia?

Answer 35

matter that is moving unless an external unbalanced force acts upon it

Question 36

What is angular momentum? What is the conservation of angular momentum?

Answer 36

Angular Momentum: a measure of rotation of a body as it revolves around some point
* As a planet approaches the Sun on its elliptical orbit and the distance to the spin center decreases, the planet speeds up to conserve the angular momentum. Similarly, when the planet is farther from the Sun, it moves more slowly.

Conservation of Angular Momentum: an object’s spin remains constant unless an external torque acts upon it

Torque: force that can cause an object to rotate about an axis