the solar system
... Rotation: most planets rotate around an imaginary axis. The time that a planet takes to rotate on its own axis is called a day. The Earth rotates anticlockwise. ...
... Rotation: most planets rotate around an imaginary axis. The time that a planet takes to rotate on its own axis is called a day. The Earth rotates anticlockwise. ...
Chapter 7 – Our Planetary System 7.1 Studying the Solar System
... Nearly identical in __________________ to Earth; surface hidden by clouds ...
... Nearly identical in __________________ to Earth; surface hidden by clouds ...
Technology Lesson Plan Lesson Plan Assignment Lindsey Crosby
... Which planets is known for its beautiful icy rings?*Saturn Which planet spins on its side?*Uranus Which planet has a storm known as the Great Dark Spot?*Neptune How many planets are in our Solar System?*8 Which dwarf planet was once known as a planet in our Solar System?*Pluto Student Assessment: Ea ...
... Which planets is known for its beautiful icy rings?*Saturn Which planet spins on its side?*Uranus Which planet has a storm known as the Great Dark Spot?*Neptune How many planets are in our Solar System?*8 Which dwarf planet was once known as a planet in our Solar System?*Pluto Student Assessment: Ea ...
Terrestrial Planets
... • Windy: major dust storms • T = -130 °C to 30 °C, but generally cold • No plate tectonics ...
... • Windy: major dust storms • T = -130 °C to 30 °C, but generally cold • No plate tectonics ...
The kinematics of the Solar System
... planet from Earth) Mass M of a planet is determined by applying Newton’s laws to either a satellite of the planet or a passing spacecraft Then the average density of the planet is ...
... planet from Earth) Mass M of a planet is determined by applying Newton’s laws to either a satellite of the planet or a passing spacecraft Then the average density of the planet is ...
The Inner Solar System - Super Teacher Worksheets
... size of Earth. The most distinct feature about Mars is its red color. Dust rich in iron oxide covers the planet. It’s sort of like the planet is rusting. White caps at the poles are water, forever frozen because of the colder temperatures further from Second in line comes Venus, which is the Sun. Th ...
... size of Earth. The most distinct feature about Mars is its red color. Dust rich in iron oxide covers the planet. It’s sort of like the planet is rusting. White caps at the poles are water, forever frozen because of the colder temperatures further from Second in line comes Venus, which is the Sun. Th ...
The Inner Solar System - Super Teacher Worksheets
... size of Earth. The most distinct feature about Mars is its red color. Dust rich in iron oxide covers the planet. It’s sort of like the planet is rusting. White caps at the poles are water, forever frozen because of the colder temperatures further from Second in line comes Venus, which is the Sun. Th ...
... size of Earth. The most distinct feature about Mars is its red color. Dust rich in iron oxide covers the planet. It’s sort of like the planet is rusting. White caps at the poles are water, forever frozen because of the colder temperatures further from Second in line comes Venus, which is the Sun. Th ...
Space - Teacher Resources Galore
... it is so close to the sun. It is too hot for plants or animals to live there. • Mercury is very hot during the day and very cold at night. • On the planet Mercury, a year only has 88 earth days. Mercury is the fastest planet orbiting the sun. • It has no water, no air, and no moons. • Mercury is a s ...
... it is so close to the sun. It is too hot for plants or animals to live there. • Mercury is very hot during the day and very cold at night. • On the planet Mercury, a year only has 88 earth days. Mercury is the fastest planet orbiting the sun. • It has no water, no air, and no moons. • Mercury is a s ...
Chapter 14 The Solar System
... 2. ____ giants: The name often given to the first four outer planets: Jupiter, Saturn, Uranus, and Neptune. 3. ____ cloud: A spherical region of comets that surrounds the solar system. 4. ____ planets: The name often given to the four inner planets: Mercury, Venus, Earth, and Mars. 5. ____ zone: The ...
... 2. ____ giants: The name often given to the first four outer planets: Jupiter, Saturn, Uranus, and Neptune. 3. ____ cloud: A spherical region of comets that surrounds the solar system. 4. ____ planets: The name often given to the four inner planets: Mercury, Venus, Earth, and Mars. 5. ____ zone: The ...
Chapter 14 The Solar System
... 2. ____ giants: The name often given to the first four outer planets: Jupiter, Saturn, Uranus, and Neptune. 3. ____ cloud: A spherical region of comets that surrounds the solar system. 4. ____ planets: The name often given to the four inner planets: Mercury, Venus, Earth, and Mars. 5. ____ zone: The ...
... 2. ____ giants: The name often given to the first four outer planets: Jupiter, Saturn, Uranus, and Neptune. 3. ____ cloud: A spherical region of comets that surrounds the solar system. 4. ____ planets: The name often given to the four inner planets: Mercury, Venus, Earth, and Mars. 5. ____ zone: The ...
A. Comet: dust and rock particles combined with frozen water
... average distance between Earth and the Sun is 150 million km/ 93 million miles or 1 Astronomical Unit (AU) Water exists on surface as solid, liquid, and gas which supports life Earth also has high amount of oxygen (21%) in its atmosphere so animal life is possible Earth has 1 moon ...
... average distance between Earth and the Sun is 150 million km/ 93 million miles or 1 Astronomical Unit (AU) Water exists on surface as solid, liquid, and gas which supports life Earth also has high amount of oxygen (21%) in its atmosphere so animal life is possible Earth has 1 moon ...
Explore Our Solar System
... Jupiter is the largest planet. It is made of thick gases. If you tried to land a rocket ship, you would sink into the planet! Saturn is the second-largest planet. Like Jupiter, it is made mostly of gases. Its rings are made up of rock, ice, and dust. Uranus is cold and windy. It was the first planet ...
... Jupiter is the largest planet. It is made of thick gases. If you tried to land a rocket ship, you would sink into the planet! Saturn is the second-largest planet. Like Jupiter, it is made mostly of gases. Its rings are made up of rock, ice, and dust. Uranus is cold and windy. It was the first planet ...
Explore the Galaxy
... scientists. Astronauts train for many years to do their job. They need to be healthy. They also need to know how spaceships work. Satellites are spacecraft that are sent to orbit Earth without people on them. We can learn new things about our solar system from the information astronauts, robots, and ...
... scientists. Astronauts train for many years to do their job. They need to be healthy. They also need to know how spaceships work. Satellites are spacecraft that are sent to orbit Earth without people on them. We can learn new things about our solar system from the information astronauts, robots, and ...
b. 248 years
... 2. If you wanted to view the stars in the night sky, would you use… a. an electron microscope. ...
... 2. If you wanted to view the stars in the night sky, would you use… a. an electron microscope. ...
The Planets - Teacherworld.com
... brightest natural object in the night sky, except for the Moon sometimes called Earth's "sister planet", for the two are similar in size, gravity, and bulk composition ...
... brightest natural object in the night sky, except for the Moon sometimes called Earth's "sister planet", for the two are similar in size, gravity, and bulk composition ...
Comparative Planetology of Venus and Mars
... Earthlike in their size and location in the solar system, so it is astonishing to see how different they actually are. Much of this chapter is aimed at understanding how Venus and Mars evolved to their present states. Neither Venus nor Mars can tell us much about the formation of the planets. Both p ...
... Earthlike in their size and location in the solar system, so it is astonishing to see how different they actually are. Much of this chapter is aimed at understanding how Venus and Mars evolved to their present states. Neither Venus nor Mars can tell us much about the formation of the planets. Both p ...
Defrosting North Polar Dunes
... to the particles and they become heavy enough to sink. Warmed by the Sun, the surface evaporates the carbon dioxide and returns it to the atmosphere, leaving behind the water and dust. The ice seen in this picture, like that which formed one Martian year ago, is extremely thin, perhaps no more than ...
... to the particles and they become heavy enough to sink. Warmed by the Sun, the surface evaporates the carbon dioxide and returns it to the atmosphere, leaving behind the water and dust. The ice seen in this picture, like that which formed one Martian year ago, is extremely thin, perhaps no more than ...
Astronomy History of Ancient Models
... 4. Epicycles were circles which rotated on circles. 5. Ptolemy’s model fit the religious views that the earth must be at the center of everything (created by God) & followed many of the same ideas as the ancient Greeks (perfect circles, uniform speed, materials in the sky were different than stuff o ...
... 4. Epicycles were circles which rotated on circles. 5. Ptolemy’s model fit the religious views that the earth must be at the center of everything (created by God) & followed many of the same ideas as the ancient Greeks (perfect circles, uniform speed, materials in the sky were different than stuff o ...
Planets of the Solar System
... There are winds up to Up to 400 m/s and a total of 31 moons Saturn has rings and is composed of hydrogen and helium It has an extremely strong magnetic field ...
... There are winds up to Up to 400 m/s and a total of 31 moons Saturn has rings and is composed of hydrogen and helium It has an extremely strong magnetic field ...
Planets in our solar system
... Venus is like Earth because it is almost the same size, has gravity and is made of similar materials. People think that Venus used to have oceans like Earth but it got warm and they all evaporated. It is named after the Roman goddess of love and beauty. ...
... Venus is like Earth because it is almost the same size, has gravity and is made of similar materials. People think that Venus used to have oceans like Earth but it got warm and they all evaporated. It is named after the Roman goddess of love and beauty. ...
Document
... Terrestrial planets formed where temps were very high and metals and silicates could form solids Jovian planets formed at lower temps where gas became ice No planets in asteroid belt b/c Jupiter is so massive and its gravity disturbed planet formation Larger mass enables planets to hang onto particl ...
... Terrestrial planets formed where temps were very high and metals and silicates could form solids Jovian planets formed at lower temps where gas became ice No planets in asteroid belt b/c Jupiter is so massive and its gravity disturbed planet formation Larger mass enables planets to hang onto particl ...
Nebular Hypothesis and the origin of our Solar system
... The planets, satellites, comets, asteroids, and the Sun itself formed from the same cloud of interstellar gas and dust The composition of this cloud was shaped by cosmic processes, including nuclear reactions that took place within stars that died long before our solar system was formed Different pl ...
... The planets, satellites, comets, asteroids, and the Sun itself formed from the same cloud of interstellar gas and dust The composition of this cloud was shaped by cosmic processes, including nuclear reactions that took place within stars that died long before our solar system was formed Different pl ...