Earth and Space Science - BBHCSD



Earth and Space Science

I. Studying the sky

A. Astronomy: The science that deals with the study of space

B. Astronomer: The scientist who studies objects in space

a. They use various devices

b. Telescopes

c. Probes

d. Spacecraft

e. Other

C. Telescope: A device used to study objects in the solar system and beyond

a. Some work by collecting more light than the unaided eye can see

b. Two types of light telescopes

i. Refracting Telescope: Uses lenses to form images

ii. Reflecting Telescope: Uses mirrors to form images

c. Others work by collecting invisible energy waves such as radio waves and x-rays

d. Hubble Space Telescope

i. Is a reflecting telescope

ii. It orbits the Earth and sends images to Earth from space

iii. Since it is outside the Earth’s atmosphere, the images are not distorted

iv. Using the HST, scientists can see objects far beyond the view of any earthbound telescope

D. Space Probes

a. Space Probe: A spacecraft without humans aboard that gathers data about objects in space

b. A probe may fly by, orbit, or land on objects in space

c. Probes have spent back data on surface temperatures and atmospheres of some planets as well as pictures of planets and their moons

d. Since 1962, more than 45 American probes have flown by or landed on all of the planets in the solar system except Pluto

II. What is the Moon like?

A. The Moon is a ball of grey rock

B. It is covered with a powdery gray soil

C. It is 2,160 miles across

D. That is almost the size of the United States

III. Mountains, Valleys, and Plains

A. The surface of the moon rises with mountains and falls with valleys just like the Earth

B. It also has flat plains

C. The bright areas of the moon are hills and valleys

D. The dark areas are the low flat plains

E. Scientists originally thought the dark areas were seas or oceans

F. They called them Seas or Maria

G. When men landed on the moon, they landed in the Sea of Tranquility

IV. How craters form

A. A crater is a pit shaped like a bowl

B. There are craters on Earth

C. Meteorites are pieces of space material that land

D. Craters are formed when Meteorites strike the moon

E. Meteorites can also strike the Earth but usually burn up before they hit

F. They can range in size from a grain of sand to larger than a house

V. It gets cold without a blanket

A. Earth is surrounded by a blanket of air called the atmosphere

B. This layer of gases protects the Earth

C. It shields us from the Sun’s harmful rays and moderates temperature

D. The Moon has no atmosphere

E. The temperature on the moon ranges from -279 degrees to 220 degrees

VI.The Moon

A. Earth’s only natural satellite

B. 8 Phases

a. Waxing – view of moon is getting larger

b. Waning – view of moon is getting smaller

c. New Moon – First phase of the cycle – moon is not visible

d. Waxing Crescent – Second phase- Right slice is visible

e. First Quarter – Third phase – Right half of moon visible

f. Waxing Gibbous – Fourth phase – Right ¾ of moon visible

g. Full Moon – Fifth phase – All of moon visible

h. Waning Gibbous – Sixth phase – Left ¾ of moon visible

i. Last Quarter – Seventh phase – Left half of moon visible

j. Waning Crescent – Eighth phase – Left slice is visible

[pic]VII. Motion

A. Objects in the Solar System move or orbit around the sun

i. Orbit: the path on which an object travels as it moves around another object

1. A planet’s orbit is the oval shaped path the planet travels around the sun

ii. All planets are in motion

1. Revolution: A planet moving in an orbit around the sun

2. Year: The time it takes a planet to complete one orbit or revolution around the sun

3. Years are different for every planet

4. Rotation: The turning of a body on its axis

5. Axis: The imaginary line running from the North Pole to the South Pole on which a planet rotates

6. Day: The time it takes for a body to complete one rotation

B. The North Star

i. Name is Polaris

ii. All other stars spin counter clockwise

iii. The end of the Big Dipper forms a line that points to the North Star

C. Telling time

i. During the day, you can use the Sun to tell time

ii. At 12:00 noon, the Sun is at its highest point

iii. The Earth’s 24 hour rotation is the basis for our time during the day

iv. The revolution of the Earth determines our 365 day year

v. The moon revolves around the Earth approximately every 27 days

1. This makes our week 7 days (4x7=28 which is close to 27)

2. This makes our months close to that as well (28 or 29, 30, or 31 days)

VIII. The Sun

A. 9/10 is Hydrogen gas

B. 1/10 is Helium gas

C. Dense core of gasses

D. Most of the mass of the sun is in the core

E. Energy of the sun comes from changes in the core

F. Hydrogen in the core is changed to Helium

G. Heat is produced

H. Light is produced

IX. Structure

A. Corona: The hot outer atmosphere of the sun

B. Can only be seen from Earth during an eclipse

C. Appears to be a halo around the sun

D. Surface is in constant motion

E. Solar Flare: An eruption on the surface of the sun

F. Sunspot: A dark region in the atmosphere of the sun

X. Sunspots

A. Cooler than the surrounding regions

B. Number increases and decreases in an eleven year cycle

C. Some think that the number of spots affects the Earth’s climate

XI. Sun Compared to Other Stars

A. Sun is a star

B. Sun is the closest star to the Earth

C. Mid sized star

D. Sun is much larger than Earth

E. Sun is 93 million (93,000,000) miles away

F. It takes light 8 minutes to travel from the sun to the Earth

XII. Stars

A. Star- A huge sphere of hot glowing gas

i. We view stars at the speed of light

1. 300,000 kilometers per second

ii. Nothing is faster than the speed of light

iii. Light Year- is the distance that light travels in one year (5.9 trillion miles)

B.Stars differ in many ways

i. Size

ii. Color

iii. Temperature

iv. Brightness

C. Size of stars – Divided into 5 main groups

i. Neutron Stars – The smallest stars – about 16 km. in diameter

ii. White Dwarf Stars – the second smallest – Smaller than Earth

iii. Medium Sized Stars – This is the size of the sun

iv. Giant Stars – Stars with diameters about 10 to 100 times as large as the sun

v. Supergiant Stars – Stars with diameters up 1,000 times as large as the sun

D. Color and temperature

i. Can be any color of the spectrum

ii. Colors correspond to temperature

1. Blue 11,000 – 50,000 C

2. Blue-White 7,500 – 11,000 C

3. White 6,000 – 7,500 C

4. Yellow 5,000 - 6,000 C

5. Orange-Red 3,500 – 5,000 C

6. Red 2,000 - 3,500 C

2 Brightness

iii. Two ways to measure brightness

1. Apparent Magnitude – How bright it appears from Earth

2. Absolute Magnitude – Amount of light actually given off

iv. Variable star – A star that varies in its brightness

XIII. Life cycle of a star

A. Nebulas- massive cloud of dust and gas where stars are probably born

B. Proto-stars- gas and dust condense to form the beginnings of stars in a nebula

C. Life of an average star

i. Lasts billions of years

ii. Stars as hydrogen

iii. Burns and becomes helium

iv. Red Giant- as star burns more fuel, more of star is helium than hydrogen

1. Causes core to collapse which adds energy to star causes the outer layers to expand

2. Star swells to many times its original size

3. Star cools and turns red

v. White Dwarf- Last of fuel runs out and star collapses again

1. About the size of the Earth

2. Star shines dimly

3. Very dense

vi. Black Dwarf-

1. Star dies completely

2. Becomes cool and dark

XIV. Life of a massive star

A. Shorter life than average stars

B. Star battles between gravity and explosive forces which causes star to expand and contract

C. Supernova- when stars fuel is used up, outer layers collapse suddenly creating tremendous pressure which causes a gigantic explosion

D. Neutron Star- the collapse of the core is so powerful that it crushes the remaining matter

E. A spoonful of a neutron star would weigh more than the Earth

F. Black Hole- A star keeps shrinking to a point so small that its gravity is huge.

G. Nothing can escape its gravity including light

XV. Meteoroids, Asteroids, and Comets

A. Meteoroid: A mass of metal or stone moving through space

i. Range in size from pebbles to small moons

ii. Some meteoroids come near Earth and enter its atmosphere

iii. Meteor: The streak of light caused by a meteoroid passing through the Earth’s atmosphere

iv. Meteor Shower: Occurs when a large number of meteoroids enter the Earth’s atmosphere

v. Certain showers occur each year

vi. Most meteoroids burn up before they reach the ground

B. Meteorite: A meteoroid that has landed on Earth

i. Made up of minerals

ii. They produce holes or craters in the Earth’s surface

C. Asteroid: Chunks of rock found mainly in the region of space between Mars and Jupiter

i. This region divides the inner and the outer planets

ii. Most have irregular shapes

iii. Sized from boulders to tiny moons

iv. Made of rock, metal, and/or ice

v. Some come close to Earth

vi. Like a tiny planet, each asteroid has its own orbit around the Sun

D. Comet: A body in space that is formed of rocks, frozen gases, and dust that orbits the Sun

i. At one end of orbit, a comet comes very close to the Sun

ii. Cannot be seen till it approaches the Sun

iii. Coma forms a tail of dust and gas

iv. The tail always points away from the Sun

v. Most famous is Halley’s comet

XVI. Eclipses

A. Solar Eclipse: When the moon casts its shadow over the Earth

i. Moon is between Earth and the Sun

B. Lunar Eclipse: When the Earth casts its shadow over the Moon

i. Earth is between the Sun and Moon

XVII. The Seasons

A. Caused by the tilt of the Earth on its axis

B. When the North Pole is tilted towards the Sun, it is summer in the Northern Hemisphere

C. When the North Pole is tilted away from the sun, it is Winter in the Northern Hemisphere

D. When in transition, it is either Spring or Fall

XVIII. The Solar System

A. Solar System- consists of a star and the objects that revolve around it

B. Birth of the universe

C. Universe- all of the energy and matter that exists

D. Planet: A large body in orbit around the Sun

A. Inner Planets: the 4 closest planets to the sun

1. Mercury

a. Closest to the Sun

b. About the size of Earth’s Moon

c. Almost no atmosphere

d. Surface is like the surface of the Moon

2. Venus

a. 2nd from the sun

b. Second brightest object in the night sky (after the Moon)

c. About the same size as the Earth

d. Rocky core and surface

e. Thick Carbon Dioxide atmosphere

3. Earth

a. Our planet

b. 3rd from the Sun

c. Most of atmosphere is Nitrogen gas

d. ¾ of surface covered with liquid water

e. Has one moon

4. Mars

a. 4th planet from the sun

b. Red planet due to rust colored dust on surface of planet

c. A little smaller than Earth

d. Thin atmosphere made of Carbon Dioxide

e. Polar ice caps are CO2

f. Has 2 moons

B. Outer Planets: the 5 farthest planets from the sun

1. Jupiter

a. 5th from the Sun

b. Largest planet in the Solar System

c. Gas giant made of mostly Hydrogen and Helium

d. Thin rings

e. Has more known moons than any other planet (63 as of 9/13/09)

2. Saturn

a. 6th from the sun

b. Know for its rings

c. Second largest planet in the Solar System

d. Mostly Hydrogen and Helium

e. Has 2nd most number of moons (61 as of 9/13/09)

3. Uranus

a. 7th from the sun

b. Third largest in the solar system

c. Rotates on its side

d. Atmosphere is mostly Hydrogen, Helium, and Methane

e. Has 27 known moons

f. Has 11 rings

4. Neptune

a. Usually 8th from the Sun

b. 4th largest planet

c. Atmosphere is methane

d. At least 13 known moons

e. Has 5 rings

5. Pluto

a. No longer considered a planet but a dwarf planet

b. Mostly thought to be frozen gases

c. Thin atmosphere of methane

d. 3 known moons

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