Notes Astronomy - Weeblybouldercreekwinters.weebly.com/uploads/2/2/4/9/22494042/notes_astronomy.pdfNotes Astronomy . What is the solar system? •Our solar system includes planets

Notes Astronomy

What is the solar system?

• Our solar system includes planets and dwarf planets, their moons, a star called the Sun, asteroids and comets.

11.1 Structure of the Solar System

• Planets, dwarf planets, asteroids, and comets all orbit the Sun.

Solar Systems

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The Motion of the Planets

• Planets spin like a top spins on the floor.

• This spin is known as rotation.

• The axis of rotation is an imaginary line through the center of the planet around which the planet rotates.


The Motion of the Planets (cont.)

• Period of rotation—the amount of time it takes to make one complete rotation

• Period of revolution—the time it takes a planet to move around the Sun.


The Motion of the Planets (cont.)


Kepler’s Laws of Planetary Motion

• Kepler studied the motion of planets in the early 1600s.


• He proposed three laws that govern the motion of the planets.

Kepler’s First Law: Planets Orbits the Sun in Elliptical Paths

• Kepler concluded that Mars’ orbit around the Sun is an oval, or ellipse.


Kepler’s Second Law: Equal Area in Equal Time

• A line joining any planet to the Sun sweeps out equal areas in equal time.

• Planets move faster when they are closer to the Sun than when they are far from the Sun.


Kepler’s Third Law: Orbital Period Increases with Distance from the Sun

• A planet’s period of revolution increases as its distance from the Sun also increases.


The Astronomical Unit

• The astronomical unit (AU) is the average distance between the Sun and Earth.

• One AU is about 149,6000,000 km.


The Astronomical Unit (cont.)


Gravity and the Solar System

• Recall that all objects that have mass attract each other.

• The planets are attracted towards the Sun.


The Law of Universal Gravitation

• Isaac Newton explained that the force holding the planets in orbit was gravity.


Formation of the Solar System

• Some scientist think that the solar system was formed from a giant cloud of gas and dust called a nebula.

• Dense areas in the cloud attracted more mass and became even more dense.


Gravity Forming Stars and Planets

• The center of the nebula became more dense and the temperature increased.

• The Sun formed from nuclear reactions in the center of the nebula.

• Material farther away from the center of the nebula formed a disk and began to clump together, eventually becoming planets.


Lesson 1 Review

The period of rotation is the amount of time is takes a planet to ____.

A travel around Mars

B travel one AU

C travel around the Sun

D spin once on its axis


A B C D

0% 0%0%0%

1. A

2. B

3. C

4. D

Lesson 1 Review

One AU is equal to ____.

A 1 million miles

B the average distance between the Earth and its moon

C the average distance from the Sun to Pluto

D the average distance from the Earth to the Sun


A B C D

0% 0%0%0%

1. A

2. B

3. C

4. D

Lesson 1 Review

Kepler’s first law of planetary motion states ____.

A the farther a planet is from the Sun, the longer it takes to complete a revolution

B planets rotate faster when they are closer to the Sun

C planets travel in an elliptical orbit

D planets travel faster when they are closer to the Sun


A B C D

0% 0%0%0%

1. A

2. B

3. C

4. D

light-year

luminosity

apparent magnitude

absolute magnitude

12.1 Stars

What are stars?

• Stars are balls of plasma, mostly hydrogen, that produce light by nuclear reactions in their cores.

12.1 Stars

The Structure of Stars

• Stars have layered structures.

• Energy is produced in the core.

• Temperatures range from 5,000,000K to 100,000,000K in the core.

• Atoms separate from their nuclei forming plasma.

12.1 Stars

Types of Stars

• Stars have many sizes, masses, and surface temperatures.

• Our Sun is a medium-sized star with a surface temperature of about 5800K.

12.1 Stars

Distances Between Stars

• One AU is the average distance between the Sun and Earth.

• A light-year is the distance light travels in one year—9,500,000,000,000 km or 63,000 AU.

12.1 Stars

What are stars made of?

• Stars can only be studied by the light they emit.

• A spectroscope is an instrument that is used to study light.

• Astronomers can determine what elements are present in a star.

12.1 Stars

How does the chemical composition of stars determine their classification?

CA Sci8 Lab 12/ES24.html





The Brightness of Stars

• The brightness of stars depends on two things—energy and distance.

• Light looks brighter as you move closer to the source.

12.1 Stars

Classifying Stars—The H-R Diagram

• Two astronomers independently developed diagrams of how absolute magnitude, or luminosity, is related to the temperature of stars.

12.1 Stars

Classifying Stars—The H-R Diagram

• 90% of stars fall on a diagonal, curved line, called the main sequence.

• The remaining stars fall into one of three other groups.

(cont.)

– Red giants

– Supergiants

– White dwarfs

12.1 Stars

The H-R Diagram

12.1 Stars

Lesson 1 Review

How much brighter is a star with a magnitude of 2.0 than a star with a magnitude of 4.0?

A 5 times

B 10 times

C 2.5 times

D 2 times

12.1 Stars

A B C D

0% 0%0%0%

1. A

2. B

3. C

4. D

Lesson 1 Review

The apparent brightness of a star depends on what two things?

A magnitude and distance

B distance and temperature

C distance and absolute brightness

D absolute brightness and temperature

12.1 Stars

A B C D

0% 0%0%0%

1. A

2. B

3. C

4. D

Lesson 1 Review

A light-year is a unit of ____.

A time

B temperature

C brightness

D distance

12.1 Stars

A B C D

0% 0%0%0%

1. A

2. B

3. C

4. D

Stars Cluster in Galaxies

• Stars are not uniformly distributed through the universe but gather in large groups called galaxies.

• Galaxies contain billions of stars.

• Star clusters within galaxies contain millions of stars.

12.3 Galaxies

Types of Galaxies

• Galaxies have different sizes and shapes.

• Spiral galaxies can be regular or barred.

12.3 Galaxies

Types of Galaxies (cont.)

• Both types have spiral arms when viewed from above.

• They have three components—the nucleus, arms, and halos.

12.3 Galaxies


• The spiral arms are star-forming regions and the halo contains mostly old star clusters.

• From the side, spiral galaxies look flat.

12.3 Galaxies


• Some galaxies contain a bar of stars, dust, and gas that passes through the center of the galaxy—these are called barred spirals.

12.3 Galaxies

The Milky Way

• Our solar system is located in the Milky Way galaxy.

12.3 Galaxies

Elliptical and Irregular Galaxies

• Elliptical galaxies have an oval shape and are composed of old, reddish stars.

• Irregular galaxies have a patchy appearance and are difficult to classify.

12.3 Galaxies

The Distances Between Galaxies

• Galaxies are so far away that even the closest galaxies appear as fuzzy patches of light.

12.3 Galaxies

The Local Group

• Galaxies are grouped together into clusters, which form superclusters.

• The Milky Way is part of a cluster called the Local Group.

12.3 Galaxies

Superclusters

• Our cluster is part of the Virgo supercluster.

• The Virgo supercluster contains thousands of galaxies spread across 100 million light years.

• The farthest galaxies from Earth are about 14 billion light years away.

12.3 Galaxies

The Big Bang Theory

• In the late 1920s, Edwin Hubble discovered that most of the galaxies he observed were moving away from Earth.

• This could only be explained if the entire universe as expanding.

• The Big Bang Theory states the expansion of the universe began about 14 billion years ago.

12.3 Galaxies

The Big Bang Theory (cont.)

• The universe was a tiny point that contained all the energy and matter of the universe.

• The universe began to expand rapidly and cool.

12.3 Galaxies

The Expanding Universe and the Big Bang Theory

• The universe was too hot to form elements for several hundred thousand years.

• The universe consisted of radiation and subatomic particles.

• As the universe cooled, hydrogen and helium atoms formed.

12.3 Galaxies

The Formation of Galaxies

• Galaxies began forming several hundred million years after the Big Bang.

• Clouds of hydrogen and helium possibly became more dense in some regions.

12.3 Galaxies

The Formation of Galaxies (cont.)

• The dense regions began to clump and form stars.

12.3 Galaxies

Dark Matter and Dark Energy

• Scientists can calculate how much mass the universe should contain by the way galaxies move through space.

• All the matter they can detect added together is less than the amount needed.

– The missing matter is called dark matter.

– The missing energy needed to explain the expansion of the universe is called dark energy.

12.3 Galaxies

Lesson 3 Review

Which is the shape of the Milky Way?

A flat

B elliptical

C irregular

D spiral

12.3 Galaxies

A B C D

0% 0%0%0%

1. A

2. B

3. C

4. D

Lesson 3 Review

How old is the universe thought to be?

A several hundred thousand years

B 1 million years

C 14 billion years

D 63,000 million years

12.3 Galaxies

A B C D

0% 0%0%0%

1. A

2. B

3. C

4. D

Lesson 3 Review

A cluster is a group of ____.

A stars

B solar systems

C galaxies

D planets

12.3 Galaxies

A B C D

0% 0%0%0%

1. A

2. B

3. C

4. D

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Notes Astronomy - Weeblybouldercreekwinters.weebly.com/uploads/2/2/4/9/22494042/notes_astronomy.pdfNotes Astronomy . What is the solar system? •Our solar system includes planets