Formation of the Solar System . • Questions
... – Why are rocky planets close to the sun? 9 – Why is solar system a disk? – How did the planets form? – How are asteroids & comets related to planets? – How old is the solar system? ...
... – Why are rocky planets close to the sun? 9 – Why is solar system a disk? – How did the planets form? – How are asteroids & comets related to planets? – How old is the solar system? ...
Part 2: Solar System Formation
... constantly colliding with one another. If the collisions are not too violent material may stick together. • In the outer parts of the Solar Nebula the planets become large enough to have a significant gravitational pull and collect gas around them. • Planets in the inner nebula can not grow enough t ...
... constantly colliding with one another. If the collisions are not too violent material may stick together. • In the outer parts of the Solar Nebula the planets become large enough to have a significant gravitational pull and collect gas around them. • Planets in the inner nebula can not grow enough t ...
CHAP
... outer planets because all of them have surfaces are just _____ (“gas giants”) – except for Pluto which has a solid surface. - The outer planets atmospheres are mainly _______ and ________. - They also have a large __________________ which keeps gases on the planet’s surface. ...
... outer planets because all of them have surfaces are just _____ (“gas giants”) – except for Pluto which has a solid surface. - The outer planets atmospheres are mainly _______ and ________. - They also have a large __________________ which keeps gases on the planet’s surface. ...
Extra-Solar Planets continued
... days from a distance of about 3 million miles. Researchers acknowledged there probably are several different types of solar systems orbiting distant stars. But for now, the 55 Cancri system bears the closest resemblance to ours. ...
... days from a distance of about 3 million miles. Researchers acknowledged there probably are several different types of solar systems orbiting distant stars. But for now, the 55 Cancri system bears the closest resemblance to ours. ...
astronomical: (meaning 1)
... Mars Rover Lesson 1 Vocabulary List Teacher Definitions Key Vocabulary apply: use what you have learned in a different way, place or time astronomical: (meaning 1) of or pertaining to the study of stars planets and extraterrestrial matter (meaning 2) a very large number or amount scale: the ratio or ...
... Mars Rover Lesson 1 Vocabulary List Teacher Definitions Key Vocabulary apply: use what you have learned in a different way, place or time astronomical: (meaning 1) of or pertaining to the study of stars planets and extraterrestrial matter (meaning 2) a very large number or amount scale: the ratio or ...
3OriginofPlanetsandMoons
... •Planets formed when bits of matter first collided and aggregated into small, irregular shapes (planetesimals), and eventually formed into larger planets. •As the planets formed, the more dense ones were pulled closest to the sun. They are called Terrestrial Planets (Mercury, Venus, Earth, and Mars) ...
... •Planets formed when bits of matter first collided and aggregated into small, irregular shapes (planetesimals), and eventually formed into larger planets. •As the planets formed, the more dense ones were pulled closest to the sun. They are called Terrestrial Planets (Mercury, Venus, Earth, and Mars) ...
Our Solar System The Sun
... The Sun • Our Sun is a medium-sized yellow star in the middle of its life cycle. • Its the center of our Solar System and holds objects in orbit by gravitational pull. • More than 1,000,000 Earths can fit inside the Sun. • It’s fueled by nuclear fusion of small atoms to form larger ones, and it’s t ...
... The Sun • Our Sun is a medium-sized yellow star in the middle of its life cycle. • Its the center of our Solar System and holds objects in orbit by gravitational pull. • More than 1,000,000 Earths can fit inside the Sun. • It’s fueled by nuclear fusion of small atoms to form larger ones, and it’s t ...
Our Solar System
... Rings that circle around planet are composed of ice and rock particles It is an average of 887 million miles from the Sun, and completes one orbit in 29.5 ...
... Rings that circle around planet are composed of ice and rock particles It is an average of 887 million miles from the Sun, and completes one orbit in 29.5 ...
Inner Planets - Spokane Public Schools
... The eight planets in our solar system are divided into two groups: inner planets and outer planets. The inner planets are closest to the sun. They are Mercury, Venus, Earth and Mars. These planets are also called the terrestrial planets because they are most similar to Earth. Mercury is a small plan ...
... The eight planets in our solar system are divided into two groups: inner planets and outer planets. The inner planets are closest to the sun. They are Mercury, Venus, Earth and Mars. These planets are also called the terrestrial planets because they are most similar to Earth. Mercury is a small plan ...
Рабочий лист 1.2
... I'm a giant gas planet out in space, There are bands or stripes all over my face. When it comes to size, I'm number two, I have bright rings. That's an easy clue. Which planet am I? __________________________________ 2) Прочитайте текст. Meteorites are bits of rocks or metal that fall from space. Th ...
... I'm a giant gas planet out in space, There are bands or stripes all over my face. When it comes to size, I'm number two, I have bright rings. That's an easy clue. Which planet am I? __________________________________ 2) Прочитайте текст. Meteorites are bits of rocks or metal that fall from space. Th ...
Deep Dark Space
... Venus Venus was named for the Roman god of love and beauty . Venus means “beautiful white one.” Temperatures can ...
... Venus Venus was named for the Roman god of love and beauty . Venus means “beautiful white one.” Temperatures can ...
The Sun
... a coma of gas and dust (medium density), and a tail of gas and dust (lowest density). They come from the Kuiper belt or Oort cloud (very far away). ...
... a coma of gas and dust (medium density), and a tail of gas and dust (lowest density). They come from the Kuiper belt or Oort cloud (very far away). ...
Name: Pd: _____ Ast: _____ Solar System Study Guide Vocabulary
... 9) Atmosphere - A layer of gasses surrounding a planet that is held in place by the planet’s gravity 10) Astronomical Unit (AU) - Unit of measure in space equal to the average distance between Earth and the Sun. 11) Dwarf Planet - A spherical object that orbits a star but whose mass is not larger th ...
... 9) Atmosphere - A layer of gasses surrounding a planet that is held in place by the planet’s gravity 10) Astronomical Unit (AU) - Unit of measure in space equal to the average distance between Earth and the Sun. 11) Dwarf Planet - A spherical object that orbits a star but whose mass is not larger th ...
PSC101-lecture12
... constantly colliding with one another. If the collisions are not too violent material may stick together. • In the outer parts of the Solar Nebula the planets become large enough to have a significant gravitational pull and collect gas around them. • Planets in the inner nebula can not grow enough t ...
... constantly colliding with one another. If the collisions are not too violent material may stick together. • In the outer parts of the Solar Nebula the planets become large enough to have a significant gravitational pull and collect gas around them. • Planets in the inner nebula can not grow enough t ...
Out of this World
... - It takes the Earth one year to travel, or revolve, in a circle around the Sun counter-clockwise. - This motion allows us to see different constellations during different seasons. ...
... - It takes the Earth one year to travel, or revolve, in a circle around the Sun counter-clockwise. - This motion allows us to see different constellations during different seasons. ...
Guided Notes
... Inner Planets – Mercury, Venus, Earth, Mars Asteroid Belt – asteroids and dwarf planet Ceres Outer Planets- Jupiter, Saturn, Uranus, Neptune Kuiper Belt-Pluto, Eris, 800 other objects (AKA Trans-Neptunian Objects or TNOs) Oort Cloud- comets, ice, and dust at the outer limits of the solar system ...
... Inner Planets – Mercury, Venus, Earth, Mars Asteroid Belt – asteroids and dwarf planet Ceres Outer Planets- Jupiter, Saturn, Uranus, Neptune Kuiper Belt-Pluto, Eris, 800 other objects (AKA Trans-Neptunian Objects or TNOs) Oort Cloud- comets, ice, and dust at the outer limits of the solar system ...
Third Grade Standards of Study First Quarter
... Recognize that the earth is part of a system called the solar system that includes the sun (a star), planets and many moons and the earth is the third planet from the sun in our solar system. I can identify that Earth is the third planet from the Sun and that Earth and other objects revolve Recogniz ...
... Recognize that the earth is part of a system called the solar system that includes the sun (a star), planets and many moons and the earth is the third planet from the sun in our solar system. I can identify that Earth is the third planet from the Sun and that Earth and other objects revolve Recogniz ...
Team 1:The Outer Planets and Comets, Asteroids, and Meteors
... radiation zone, and the convection zone. • The core is where the suns energy is produced. • The radiation Zone is region of very tightly packed gas where energy is transferred mainly in the form of electromagnetic radiation. • The convection zone is the outer-most layer of the sun’s interior. ...
... radiation zone, and the convection zone. • The core is where the suns energy is produced. • The radiation Zone is region of very tightly packed gas where energy is transferred mainly in the form of electromagnetic radiation. • The convection zone is the outer-most layer of the sun’s interior. ...
Earth Science Lecture
... d. the cooling and heating of air parcels under rising and subsiding conditions. 13. A land breeze generally occurs _________ a. at night, when the land cools below the surface temperature of the sea b. when strong winds blow in from the sea over the land c. only during certain restricted seasons d. ...
... d. the cooling and heating of air parcels under rising and subsiding conditions. 13. A land breeze generally occurs _________ a. at night, when the land cools below the surface temperature of the sea b. when strong winds blow in from the sea over the land c. only during certain restricted seasons d. ...
Name: Date: ______ Period
... ________________________________________________________________ ________________________________________________________________ 42. Pluto is no longer considered a planet. What is its new classification? Why was Pluto removed from the list as a planet? _____________________________________________ ...
... ________________________________________________________________ ________________________________________________________________ 42. Pluto is no longer considered a planet. What is its new classification? Why was Pluto removed from the list as a planet? _____________________________________________ ...
19.3 OUTLINE NOTES Recent and Future Space - OG
... Learn how inner planets are formed Geological forces are active on them Whether they could support life ...
... Learn how inner planets are formed Geological forces are active on them Whether they could support life ...
Some Basic Facts to Know
... Overview of Solar System • The solar system is a disk • Rotation of sun, orbits of planets all in same direction. • Most planets rotate in this same sense. (Venus, Uranus, Pluto are exceptions). • Angular momentum of pre-solar gas cloud. ...
... Overview of Solar System • The solar system is a disk • Rotation of sun, orbits of planets all in same direction. • Most planets rotate in this same sense. (Venus, Uranus, Pluto are exceptions). • Angular momentum of pre-solar gas cloud. ...
Formation and evolution of the Solar System
The formation of the Solar System began 4.6 billion years ago with the gravitational collapse of a small part of a giant molecular cloud. Most of the collapsing mass collected in the center, forming the Sun, while the rest flattened into a protoplanetary disk out of which the planets, moons, asteroids, and other small Solar System bodies formed.This widely accepted model, known as the nebular hypothesis, was first developed in the 18th century by Emanuel Swedenborg, Immanuel Kant, and Pierre-Simon Laplace. Its subsequent development has interwoven a variety of scientific disciplines including astronomy, physics, geology, and planetary science. Since the dawn of the space age in the 1950s and the discovery of extrasolar planets in the 1990s, the model has been both challenged and refined to account for new observations.The Solar System has evolved considerably since its initial formation. Many moons have formed from circling discs of gas and dust around their parent planets, while other moons are thought to have formed independently and later been captured by their planets. Still others, such as the Moon, may be the result of giant collisions. Collisions between bodies have occurred continually up to the present day and have been central to the evolution of the Solar System. The positions of the planets often shifted due to gravitational interactions. This planetary migration is now thought to have been responsible for much of the Solar System's early evolution.In roughly 5 billion years, the Sun will cool and expand outward many times its current diameter (becoming a red giant), before casting off its outer layers as a planetary nebula and leaving behind a stellar remnant known as a white dwarf. In the far distant future, the gravity of passing stars will gradually reduce the Sun's retinue of planets. Some planets will be destroyed, others ejected into interstellar space. Ultimately, over the course of tens of billions of years, it is likely that the Sun will be left with none of the original bodies in orbit around it.