The Earth undergoes three main motions: revolution, rotation, and axial precession. The Earth revolves around the Sun in an elliptical orbit, completing one revolution in approximately 365 days. It rotates on its tilted axis once every 24 hours, causing the alternation of day and night. The Earth's axis of rotation also wobbles slowly over a 26,000 year period.
This is a PowerPoint that is about Exploring Earth Science. This is geared towards 3rd grade students. This is very picture heavy so it will easily keep the attention of young children. It is also full of helpful information
Rotation and Revolution of the Earth
Aphelion and Perihelion
Four Seasons
Seasonal Changes
Solstice and Equinoxes
Standard Time Zones
Land of the Midnight Sun
This is a PowerPoint that is about Exploring Earth Science. This is geared towards 3rd grade students. This is very picture heavy so it will easily keep the attention of young children. It is also full of helpful information
Rotation and Revolution of the Earth
Aphelion and Perihelion
Four Seasons
Seasonal Changes
Solstice and Equinoxes
Standard Time Zones
Land of the Midnight Sun
Project Atrium features site-specific and site-sensitive installations by emerging
and mid-career artists. The unique placement, dimensions and scale of
MOCA’s Haskell Atrium Gallery provide a compelling challenge to the chosen
artist—a call to reinvention and active collaboration with the architecture of the
Museum on a monumental scale. Project Atrium also provides the public with
the opportunity to directly engage with artists through lectures, membership
events, and by viewing the creative process in person.
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Developed by Maria Jesús Campos, Social Studies, Geography and History teacher in a bilingual section in Madrid (Spain)
http://marcusvannini2012.blogspot.com/
http://www.marcusmoon2022.org/designcontest.htm
Shoot for the moon and if you miss you'll land among the stars...
In addition to being the birthplace of humanity and the cradle of human civilization, Earth is the only known planet in our Solar System that is capable of sustaining life. As a terrestrial planet, Earth is located within the Inner Solar System between between Venus and Mars (which are also terrestrial planets). This place Earth in a prime location with regards to our Sun’s Habitable Zone.
Earth has a number of nicknames, including the Blue Planet, Gaia, Terra, and “the world” – which reflects its centrality to the creation stories of every single human culture that has ever existed. But the most remarkable thing about our planet is its diversity. Not only are there an endless array of plants, animals, avians, insects and mammals, but they exist in every terrestrial environment.
1. Artist's concept of the solar system. Shown are the orbits of the planets,
Earth being the third planet from the Sun, and the other planets and their
relative sizes and distances from each other and to the Sun. Also shown is
the solar system as seen looking toward Earth from the Moon.
2. Earth undergoes many different motions as it moves
through space. There are seven more conspicuous
motions, three of which are more obvious on the
surface. Earth follows the path of a gigantic helix,
moving at fantastic speeds as it follows the Sun and
the galaxy through space.
3. Eratosthenes calculated the size of
Earth's circumference after learning
that the Sun's rays were vertical at
Syene at noon on the same day they
made an angle of a little over 7O at
Alexandria.
He reasoned that the difference was
due to Earth's curved surface.
Since 7O is about 1/50 of 360O, then
the size of Earth's circumference had
to be fifty times the distance
between the two towns. (The angle
is exaggerated in the diagram for
clarity.)
6. The solar system is a disk shaped nebula
with a turning, swirling motion.
Plane of the ecliptic
Ancient Greeks though the Earth was
round due to:
Since a sphere was perfect as was the
Earth, it made perfect sense that the Earth
should be a sphere.
The Earth cast a circular shadow on the
moon during a lunar eclipse.
As ships sailed away they were observed
to disappear over the horizon.
7. The Earth is not round.
It is now known that the Earth is not a
perfect sphere.
The Earth is actually oblate.
Flattened at the poles.
Has an equatorial bulge.
The North Pole is slightly higher and the
South Pole slightly lower than the
average surface
The Equator has a bulge and the Pacific
Ocean and a depression at the Indian
Ocean.
8. Earth has an irregular, slightly lopsided,
slightly pear-shaped form. In general, it is
considered to have the shape of an oblate
spheroid, departing from a perfect sphere as
shown here.
10. The position of the Sun on the
celestial sphere at the solstices and
the equinoxes.
11. Introduction
The Earth has 3 motions that are
independent of the motion of the Sun
and the Galaxy
The Earth has a yearly rotation
around the Sun
The Earth rotates on its axis once
approximately every 24 hours.
The Earths axis wobbles slowly as it
revolves.
12. Revolution
Earth’s orbit is slightly elliptical and
requires approximately one year to
complete.
All points in the Earth’s orbit form a plant
called the plane of the ecliptic
The average distance from the Sun to the
Earth is 150 million km (about 93 million
mi).
The Earth moves fastest when it is closest
to the Sun at perihelion, in January, and
moves slowest when it is farthest from the
Sun in aphelion, in July
13. Solstices
Summer Solstice
Occurs about June 22
The Sun at noon has the
highest altitude.
Winter Solstice
Occurs about December 22.
The noon Sun has the lowest
altitude
14. Rotation
We know that the Earth rotates due to
The other planets rotate
A pendulum changes its plane at
different latitudes
The observation of something moving
above the Earth’s surface, such as a jet.
The rotation of the Earth causes the
Coriolis Effect which is an apparent
deflection of moving objects to the right in
the Northern Hemisphere and to the left
in the Southern Hemisphere.
15. The earth has a greater rotational velocity at
the equator and less toward the poles. As an
object moves north or south (A), it passes
over land with a different rotational velocity,
which produces a deviation to the right in
the Northern Hemisphere (B) and to the left
in the Southern Hemisphere.