Download Earth and its Moon

The Sun-Earth-Moon
Relationship
Earth
Chapter 23, section 1
Journal Entry
What are the Earth’s Movements?
Objectives:
Examine Earth’s
physical
characteristics
Differentiate between
rotation and
revolution
Discuss what causes
seasons to change
Homework:
Complete packet #10
What are the Earth’s
Motions?
Earth
Physical Properties of Earth
Diameter (Pole to Pole)
12, 714 km
Diameter (Equator)
12, 756 km
Circumference (Poles)
40, 075 km
Mass
5.98 X 10 to 24th power
Average Density
5.52g/cm cubed
Average distance to the Sun
149, 600,000 km
Period of rotation
23 hours, 56 minutes
Period of revolution
365 days, 6 hours, 9 minutes
The Earth in Space
The earth is a round three dimensional
shape called a sphere.
The Earth revolves around the sun.
In one year it travels 940,000,000 km.
The Earth rotates on its axis, an
imaginary vertical line.
These two combined movements affect
both day and night and the seasons on
Earth.
Day and Night
The Earth’s rotation causes day and night every
24 hours.
The Earth rotates in a counterclockwise pattern
( west to east) causing the sun to appear to rise
in the east and set in the west.
Since the Earth’s axis is tilted when the North
Pole is leaning toward the sun, the South Pole is
leaning away.
The hemisphere that leans toward the sun has
long days and short nights.
A Year on Earth
The Earth takes 365.25 days to complete
the revolution around the sun.
An extra day is added to the calendar
every four years in February.
This is called a leap year.
Tilt
Since the earth is
spherical and tilted,
different areas of the
earth receive
different amount of
sunlight.
Direct and Indirect Radiation
Areas near or at the
equator receive direct
solar radiation.
As you move away
from the equator,
north or south, you
receive less direct
(indirect) radiation.
Direct and Indirect
The equator receives
direct (90º) radiation
year round.
In New Jersey, we
receive light that is
angled about 60º
(indirect).
At the Poles, the light
received is very
indirect (30º)
Indirect and Direct Radiation
Direct radiation
covers a smaller area
and is more
concentrated.
The more indirect the
light, the larger the
area it covers and the
less concentrated
each area.
Seasons on Earth
The Earth has four seasons: winter,
spring, summer and autumn.
Five of the other planets, Mars, Saturn,
Uranus, Neptune and possibly Pluto.
The other planets, Mercury, Venus and
Jupiter, do not have seasons since they
are not tilted on their axis.
Earth’s Orbit
The earth’s orbit is
an ellipse. The earth
is not in the center of
the ellipse. It is
closest to the sun in
January.
It is the tilt that
causes the seasons.
Tilt
The Earth’s tilt also
causes the Sun’s
radiation to strike the
hemispheres at
different angles.
The part tilted toward
receives more direct
(90) angles of
radiation.
Seasons
When the Northern Hemisphere is tilted
toward the sun, that part of the Earth has
summer since the sun’s rays are more
direct and the days are longer.
At the same time, the Southern
Hemisphere is tilted away and has winter.
Summer and winter are not affected by
the distance from the sun.
Solstices
Summer begins in the Northern Hemisphere on
June 20 or 21.
The summer solstice is the longest day of the
year. It is the time when the sun reaches its
greatest distance North or South of the equator.
The winter solstice is the shortest day of the
year. This occurs when the Sun is directly
above the Earth’s equator.
When the Northern Hemisphere has the longest
day, the Southern Hemisphere has the shortest
day.
Equinox
Twice a year neither hemisphere is tilted
toward the sun. These times are known
as equinoxes.
Spring begins on March 20 or 21, the
vernal equinox.
Autumn begins on September 22 or 23,
the autumnal equinox.
Solstice and Equinox
Magnetosphere
The Earth’s magnetic field is called the
magnetosphere.
The magnetic field starts at an altitude of 1000
km and extends to an altitude of 64,000 km on
the side facing the sun.
On the side facing away from the sun, the
magnetosphere extends in a long tail caused by
solar winds blowing away from the sun.
Magnetic Field
The movement of the
material in the core,
along with the
Earth’s rotation
generates a magnetic
field around the
earth.
This field protects us
from harmful
radiation.
Magnetic Field
The magnetic field
around earth also
allows to know
direction, and
animals to migrate.
Motors, computers
and credit cards all
work because of the
magnetic field.
Magnetic Field
 The magnetic field
produces the aurora
borealis and aurora
australis.
 The location of the poles
changes over times.
 Without the
magnetosphere we
would not have
electricity.
Magnetosphere
The magnetosphere
is constantly being
reshaped by the solar
winds.
Jupiter’s Magnetosphere
Jupiter’s
magnetosphere is
similar but much
larger.
The magnetic field
on Jupiter is caused
by a giant liquid
hydrogen ocean.
Journal Entry #54
What causes the
phases of the moon?
The Moon- Earth’s Satellite
Chapter 23, section 2
Objectives:
Identify the phases of the moon and their
cause.
Explain why solar and lunar eclipses
occur.
Infer what the Moon’s surface features
may reveal about its history.
The Moon’s Characteristics
The moon’s diameter is 1/4 of the Earth.
The moon’s gravity is 1/6 of the Earth.
The moon is 384,403 km from the Earth.
The moon does not have an atmosphere
or weather.
The temperature is extreme from 100
degrees Celsius to –175 degrees.
Movements of the Moon
Perigee is the point of the moon’s orbit
closest to the Earth. The apogee is the
point of the moon’s orbit farthest from
the Earth.
The moon’s period of rotation is the same
as the period of revolution so the same
side of the moon always faces the Earth.
The Earth, the Moon and the
Sun
As the Earth moves in its yearly
revolution around the sun, the moon
moves in a monthly revolution around the
Earth.At the same time both rotate.
The motion of these three result in the
changing appearance of the moon as seen
from the Earth and the blocking of light.
Moon
At all times ½ of the
moon is in darkness.
We only see part of
the moon from Earth.
Each phase is visible
at certain times of the
day.
Moon Phase Visibility
Phase
Ahead or
Behind the
Sun
Rise time in
East
Mid point in
sky
Set time in
West
New Moon
A few
minutes
behind
Sunrise
Noon
Sunset
First Quarter
6 hours
behind
Noon
Sunset
Midnight
Full Moon
12 hours
behind
Sunset
Midnight
Sunrise
Last Quarter
6 hours ahead Midnight
Sunrise
Noon
Phases of the Moon
The moon goes through all of its phases
every 29.5 days. The moon reflects
sunlight toward the Earth.
The moon has 8 phases.
The moon is said to be waxing when the
lighted area grows larger and waning
when the lighted area appears to grow
smaller.
Moon Phases
New Moon
A new moon occurs
when the moon
comes between the
sun and Earth and the
side of the moon
facing Earth is in
darkness.
Waxing Crescent
At waxing crescent
phase the moon is
getting larger from
new moon.
About ¼ of the moon
is lighted on the right
side.
First Quarter
One week later at
First quarter moon, ½
of the moon appears
lighted on the right
side.
Waxing Gibbous
At this phase the part
of the moon that can
be seen from earth is
more than ½ lighted
on the right side.
Full Moon
At full moon the Sun
earth and moon are
in a direct line. The
entire side of the
moon that is facing
the earth is
completely light.
Waning Gibbous
The lighted part of
the moon that can be
seen from earth is
starting to get smaller
at this phase.
The moon is more
than ½ lighted on the
left side.
Last Quarter
The moon is now ½
lighted on the left
side.
Waning Crescent
The lighted part of
the moon that can be
seen from earth is
getting smaller in this
phase.
It is less than ½
lighted on the left
side.
New Moon
The moon then stars
all over again as a
new moon.
The moon is between
the earth and the sun
and the side of the
moon facing us is in
complete darkness.
Solar Eclipse
A solar eclipse
occurs when the new
moon comes directly
between the sun and
the Earth.
Penumbra and Umbra
The people in the
umbra of the shadow
see a total solar
eclipse.
The people in the
penumbra, the larger
outer shadow, see a
partial solar eclipse.
Lunar Eclipse
A lunar eclipse
occurs when the
moon passes through
the Earth’s shadow.
Lunar Eclipses
When the moon
moves through the
umbra, a total lunar
eclipse occurs.
When the moon
moves through the
penumbra, a partial
lunar eclipse occurs.
Moon – Earth
As a result of the Earth’s gravitational
pull on the moon, the side that faces Earth
has a bulge.
The moon’s gravitational pull on Earth
results in the rise and fall of the oceans,
known as the tides.
Galileo
In 1609, Galileo looked at the moon with
a telescope. He called the lowlands,
Maria.
The highlands reach to a height of 8 km.
Most of the craters are in the highlands.
One of the largest is Copernicus, which is
91 km in diameter.
The Moon’s Surface
The moon’s surface
has many
depressions called
craters.
Meteorites, asteroids
and comets strike the
Moon’s surface
creating the
depressions.
Maria
When the asteroids
struck the surface,
they caused cracks
which allowed lava
to flow and fill up the
craters.
This produced dark,
flat regions called
maria.
Inside the Moon
Scientists use
instruments to study
moon quakes.
The crust is 60 km
thick on the side
facing Earth.
On the far side it is
150 km thick.
Inside the Moon
Beyond the crust is a
solid mantle that is
about 1000 km deep.
A partly molten zone
of the mantle extends
even farther down.
The central core is
made of solid and
iron-rich.
Origin of the Moon
One theory states that the moon was
formed millions of kilometers from the
Earth and captured by its gravity.
The moon may have been formed in the
nebular cloud in which the Earth formed.
The Impact theory says that aMars sized
object struck the Earth and tore a huge
chunk away, leaving a hole.
Pacific Ocean
The remaining
depression became
the Pacific Ocean.
Exploring Earth’s Moon
Chapter 23, Section 3
Objectives:
Describe recent discoveries about the
moon.
Examine facts about the moon that might
influence future space travel.
Study of the Moon
In 1959, the Soviet Union launched the
Luna spacecraft which made a close up
study of the moon.
In 1961, the United States began a
program with the first Ranger spacecraft
and a series of Lunar Orbiters.
Surveyor
The Surveyor was
designed to land on
the moon. Five
landed and analyzed
the soil. The goal
was to prepare for
the landing of the
Apollo astronauts.
Apollo Missions
In 1969 Apollo 11
landed on the moon.
By 1972, then the
Apollo missions
ended as United
States astronauts had
walked on the moon.
Clementine
In 1994, the
Clementine was
placed into lunar
orbit. It mapped the
features of the moon,
including impact
basins.
Impact Basins
The depression left
by an object striking
the moon is known
as an impact basin or
an impact crater,
The South PoleAiken Basin is the
oldest identifiable
feature on the moon.
Frozen Water
The bottom of impact basins at the poles
never receive direct sunlight. The
temperatures are very low. Early signals
indicated the presence of frozen water
that might be used for future moon
colonies.
Mapping the Moon
The Clementine took high resolution
photos of the surface.
It found that the crust on the side facing
Earth is much thinner than the far side.
It also found that the crust is thinnest
under the impact basins.
Lunar Prospector
In 1998, NASA
launched the desksized Lunar
Prospector.
It orbited the moon
from pole to pole for
a year.
Icy Poles
The Lunar
Prospector also
mapped the Moon’s
gravity, magnetic
field, and abundance
of 11 elements.
It confirmed that 11
billion metric tons of
ice water was present
in deep craters at the
lunar poles.
Tides
The rise and fall in
sea level is called a
tide.
Tides
Tides are caused by
the gravitational pull
of the moon and the
sun.
Although the sun is
bigger in mass, the
moon is closer, so the
moon had a greater
effect than the sun.
High and Low Tide
A rise is sea level is
known as high tide
A drop in sea level is
known as low tide.
High Tides
As the earth rotates it
passes under the
moon.
The part of the earth
that is passing under
the moon will have a
high tide and so will
the area directly on
the other side of the
globe.
Low Tides
The area in between
high tide areas will
have low tides.
Most areas of the
earth have two high
tides and two low
tides every day.
One High and Low Tide
A few areas, such as
the Gulf of Mexico
only have one of
each.
Tide Cycle
A complete tide
cycle of two high
tides and two low
tides takes 24 hours
and 50 minutes.
This is because the
earth has to catch up
to the moon since the
moon moved forward
while the earth was
rotating.
Tidal Range
The tidal range is the
difference between
the level of the ocean
at high and low tide.
Tidal Bores
Sometime when the
tide from a wide area
of ocean enters a
narrow river it can
make a wave in the
river known as a tidal
bore.
Tidal Bulges
Two bulges of water
form, one on the side
under the moon and
one on the side
directly opposite the
moon.
Tidal Bulges
The force exerted by
the moon on the side
under the moon is
greater than any
other force so the
water is pulled
toward the moon.
Tidal Bulges
On the opposite side
the centrifugal force
of rotation is greater
than any other force
so the water is pulled
up.
Slowing Rotation
The action of the
tides is slowing the
rotation of the Earth
by 0.002 second per
century.
If this continues to
happen we could
become
gravitationally
locked.
Sun’s Gravitational Pull
The Sun’s
gravitational pull
can weaken or
strengthen the
Moon’s effect on
Earth.
When the moon,
earth and sun are in a
straight line the pull
is stronger.
Spring Tides
Spring Tides occur
during new moon
and full moon.
During spring tides,
high tides are higher
and low tides are
lower than normal.
There is a greater
tidal range.
Neap Tide
Neap Tide occur
when earth sun and
moon are forming a
right angle.
The pull of the moon
and sun are partially
cancelled out.
Neap tides are
moderate. There is a
small tidal range.