a) Create a KWL
What Is The Solar System?
The Solar System
is made up of all the planets that orbit our Sun. In addition to
planets, the Solar System also consists of moons, comets, asteroids,
minor planets, and dust and gas.
Everything in the Solar System orbits or revolves around the Sun. The Sun contains around 98% of all the material in the Solar System. The larger an object is, the more gravity it has. Because the Sun is so large, its powerful gravity attracts all the other objects in the Solar System towards it. At the same time, these objects, which are moving very rapidly, try to fly away from the Sun, outward into the emptiness of outer space. The result of the planets trying to fly away, at the same time that the Sun is trying to pull them inward is that they become trapped half-way in between. Balanced between flying towards the Sun, and escaping into space, they spend eternity orbiting around their parent star.
Everything in the Solar System orbits or revolves around the Sun. The Sun contains around 98% of all the material in the Solar System. The larger an object is, the more gravity it has. Because the Sun is so large, its powerful gravity attracts all the other objects in the Solar System towards it. At the same time, these objects, which are moving very rapidly, try to fly away from the Sun, outward into the emptiness of outer space. The result of the planets trying to fly away, at the same time that the Sun is trying to pull them inward is that they become trapped half-way in between. Balanced between flying towards the Sun, and escaping into space, they spend eternity orbiting around their parent star.
How Did The Solar System form?
This is an
important question, and one that is difficult for scientists to
understand. After all, the creation of our Solar System took place
billions of years before there were any people around to witness it. Our
own evolution is tied closely to the evolution of the Solar System.
Thus, without understanding from where the Solar System came from, it is
difficult to comprehend how mankind came to be.
Scientists believe that the Solar System evolved from a giant cloud of dust and gas. They believe that this dust and gas began to collapse under the weight of its own gravity. As it did so, the matter contained within this could begin moving in a giant circle, much like the water in a drain moves around the center of the drain in a circle.
At the center of this spinning cloud, a small star began to form. This star grew larger and larger as it collected more and more of the dust and gas that collapsed into it.
Further away from the center of this mass where the star was forming, there were smaller clumps of dust and gas that were also collapsing. The star in the center eventually ignited forming our Sun, while the smaller clumps became the planets, minor planets, moons, comets, and asteroids.
Scientists believe that the Solar System evolved from a giant cloud of dust and gas. They believe that this dust and gas began to collapse under the weight of its own gravity. As it did so, the matter contained within this could begin moving in a giant circle, much like the water in a drain moves around the center of the drain in a circle.
At the center of this spinning cloud, a small star began to form. This star grew larger and larger as it collected more and more of the dust and gas that collapsed into it.
Further away from the center of this mass where the star was forming, there were smaller clumps of dust and gas that were also collapsing. The star in the center eventually ignited forming our Sun, while the smaller clumps became the planets, minor planets, moons, comets, and asteroids.
A Great Storm
Once
ignited, the Sun's powerful solar winds began to blow. These winds,
which are made up of atomic particles being blown outward from the Sun,
slowly pushed the remaining gas and dust out of the Solar System.
With no more
gas or dust, the planets, minor planets, moons, comets, and asteroids
stopped growing. You may have noticed that the four inner planets are
much smaller than the four outer planets. Why is that?
Because the inner planets are much closer to the Sun, they are located where the solar winds are stronger. As a result, the dust and gas from the inner Solar System was blown away much more quickly than it was from the outer Solar System. This gave the planets of the inner Solar System less time to grow.
Another important difference is that the outer planets are largely made of gas and water, while the inner planets are made up almost entirely of rock and dust. This is also a result of the solar winds. As the outer planets grew larger, their gravity had time to accumulate massive amounts of gas, water, as well as dust.
Because the inner planets are much closer to the Sun, they are located where the solar winds are stronger. As a result, the dust and gas from the inner Solar System was blown away much more quickly than it was from the outer Solar System. This gave the planets of the inner Solar System less time to grow.
Another important difference is that the outer planets are largely made of gas and water, while the inner planets are made up almost entirely of rock and dust. This is also a result of the solar winds. As the outer planets grew larger, their gravity had time to accumulate massive amounts of gas, water, as well as dust.
The Solar System Has Over 100 Worlds
It is
true that there are only eight planets. However, the Solar System is
made up of over 100 worlds that are every bit as fascinating. Some of
these minor planets, and moons are actually larger than the planet
Mercury!
Others, such as Io, have active volcanoes. Europa has a liquid water ocean, while Titan has lakes, rivers, and oceans of liquid Methane. You can read more about these amazing worlds by clicking here.
Others, such as Io, have active volcanoes. Europa has a liquid water ocean, while Titan has lakes, rivers, and oceans of liquid Methane. You can read more about these amazing worlds by clicking here.
The Asteroid Belt, The Kuiper Belt, And The Oort Cloud
You have
probably heard about the Asteroid Belt. This band of asteroids sits
between the orbits of the planets Jupiter and Mars. It is made up of
thousands of objects too small to be considered planets. Some of them no
larger than a grain of dust, while others, like Eros can be more than
100 miles across. A few, like Ida, even have their own moons.
Further out, beyond the orbit of the minor planet Pluto, sits another belt known as the Kuiper Belt. Like the Asteroid Belt, the Kuiper Belt is also made up of thousands, possibly even millions of objects too small to be considered planets. A few of these objects, like Pluto, are large enough that their gravity has pulled them into a sphere shape.
These objects are made out of mostly frozen gas with small amounts of dust. They are often called dirty snowballs. However, you probably know them by their other name... comets.
Further out, beyond the orbit of the minor planet Pluto, sits another belt known as the Kuiper Belt. Like the Asteroid Belt, the Kuiper Belt is also made up of thousands, possibly even millions of objects too small to be considered planets. A few of these objects, like Pluto, are large enough that their gravity has pulled them into a sphere shape.
These objects are made out of mostly frozen gas with small amounts of dust. They are often called dirty snowballs. However, you probably know them by their other name... comets.
Every
once in a while one of these comets will be thrown off of its orbit in
the Kuiper Belt and hurled towards the inner Solar System where it
slowly melts in a fantastic show of tail and light.
Beyond the Kuiper Belt sits a vast area known as the Oort Cloud. Here within this jumbled disorganized cloud live millions of additional comets. These comets do not orbit the Sun in a ring or belt. Instead, each one buzzes around in a completely random direction, and at extremely high velocities.
Beyond the Kuiper Belt sits a vast area known as the Oort Cloud. Here within this jumbled disorganized cloud live millions of additional comets. These comets do not orbit the Sun in a ring or belt. Instead, each one buzzes around in a completely random direction, and at extremely high velocities.
Beyond The Oort Cloud
The Sun's
solar winds continue pushing outward until they finally begin to mix
into the interstellar medium, becoming lost with the winds from other
stars. This creates a sort of bubble called the Heliosphere. Scientists
define the boundaries of the Solar System as being the border of the
Heliosphere, or at the place where the solar winds from the Sun mix with
the winds from other stars.
The Heliosphere extends out from the Sun to a distance of about 15 billion miles, which is more than 160 times further from the Sun than is the Earth.
The Heliosphere extends out from the Sun to a distance of about 15 billion miles, which is more than 160 times further from the Sun than is the Earth.
Solar System Facts
Each page is full of fun and
exciting facts about our Solar System. Take your time, and enjoy
exploring our solar family.
Taken from: http://www.kidsastronomy.com/solar_system.htm
K
El nombre de nuestro sistema se debe a que el sol es el centro de este.
Esta compuesto por el sol y por 8 planetas que orbitan a su alrededor.
Se cree que su origen estuvo en una gigantesca explosión denominada Big- Bang
Otros componentes del sistema son cometas, asteroides y satélites naturales como la luna.
W
Cuáles son las distancias entre el planeta más lejano y el más cercano al sol.
Cuántos satélites naturales poseen los diferentes planetas.
Cuánto tiempo demora la rotación de Venus sobre su eje.
Qué diferencias hay entre un planeta y otro.
L
Aprendimos que el Sol contiene alrededor del 98% de la
materia en el Sistema Solar.
Los científicos sostienen que el Sistema
Solar se formo a partir de una gigantesca nube de polvo y gas.
Qué los cuatro planetas más cercanos al Sol, están constituidos
de roca y polvo, los cuatro restantes, alejados del sol se
constituyen de agua y gas.
Más allá de los 8 planetas que cocemos, hay 100 mundos más que también constituyen el Sistema Solar.
b)Read the text and create a KWL
The Water Cycle (also known as the hydrologic cycle) is the journey water takes as it circulates from the land to the sky and back again.
The Sun's heat provides energy to evaporate water from the Earth's surface (oceans, lakes, etc.). Plants also lose water to the air (this is called transpiration). The water vapor eventually condenses, forming tiny droplets in clouds. When the clouds meet cool air over land, precipitation (rain, sleet, or snow) is triggered, and water returns to the land (or sea). Some of the precipitation soaks into the ground. Some of the underground water is trapped between rock or clay layers; this is called groundwater. But most of the water flows downhill as runoff (above ground or underground), eventually returning to the seas as slightly salty water.
WHY ARE THE OCEANS SALTY?
 Oceans cover about 70% of the Earth's surface. The oceans contain roughly 97% of the Earth's water supply. |
http://www.enchantedlearning.com/subjects/astronomy/planets/earth/Watercycle.shtml
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