Solar System Test Review
... Period of revolution 14. What term do we use to describe a day for all planets in our solar system? Period of rotation 15. What 4 planets are closest to the sun and what is the title given to that group of planets? Inner planets a. Mercury - closest to the sun b.Venus – 2nd c. Earth – 3rd d. Mars – ...
... Period of revolution 14. What term do we use to describe a day for all planets in our solar system? Period of rotation 15. What 4 planets are closest to the sun and what is the title given to that group of planets? Inner planets a. Mercury - closest to the sun b.Venus – 2nd c. Earth – 3rd d. Mars – ...
Solar System Test Review
... Period of revolution 14. What term do we use to describe a day for all planets in our solar system? Period of rotation 15. What 4 planets are closest to the sun and what is the title given to that group of planets? Inner planets a. Mercury - closest to the sun b.Venus – 2nd c. Earth – 3rd d. Mars – ...
... Period of revolution 14. What term do we use to describe a day for all planets in our solar system? Period of rotation 15. What 4 planets are closest to the sun and what is the title given to that group of planets? Inner planets a. Mercury - closest to the sun b.Venus – 2nd c. Earth – 3rd d. Mars – ...
Our Solar System
... Discovered through math 7 known moons Triton largest moon Great Dark Spot thought to be a hole, similar to the hole in the ozone layer on Earth ...
... Discovered through math 7 known moons Triton largest moon Great Dark Spot thought to be a hole, similar to the hole in the ozone layer on Earth ...
Overview of our Solar System 1112 notes
... • At the center of our solar system • Contains 98.5% of all of the mass of the solar system • The first thing formed in our solar system • The largest and only star in our solar system • Provides almost all of the energy used in the solar system • Earth only gets 0.000000001% of the sun’s total ener ...
... • At the center of our solar system • Contains 98.5% of all of the mass of the solar system • The first thing formed in our solar system • The largest and only star in our solar system • Provides almost all of the energy used in the solar system • Earth only gets 0.000000001% of the sun’s total ener ...
Study Guide for Midterm 2 Midterm 1 Exam procedures
... Jupiter’s 59 other moons are much smaller. Saturn: 33 known moons ...
... Jupiter’s 59 other moons are much smaller. Saturn: 33 known moons ...
Planets
... Mercury - Mercury is the planet closest to the Sun. Venus - Venus is the second planet from the Sun. It is the hottest planet. Earth - Earth is the third planet from the Sun and the planet we live on. Mars - Mars is a red planet and the fourth planet from the Sun. Jupiter - Jupiter is the fifth plan ...
... Mercury - Mercury is the planet closest to the Sun. Venus - Venus is the second planet from the Sun. It is the hottest planet. Earth - Earth is the third planet from the Sun and the planet we live on. Mars - Mars is a red planet and the fourth planet from the Sun. Jupiter - Jupiter is the fifth plan ...
Lauren Stinson
... moons • Jupiter takes about 12 years to orbit the sun and rotates in about 10 hours • This short Jupiter day is amazing since the planet is ...
... moons • Jupiter takes about 12 years to orbit the sun and rotates in about 10 hours • This short Jupiter day is amazing since the planet is ...
The Solar System
... – If Jupiter were a little larger, it may have turned into a small star – 5th from the sun – Large storm – 67 moons – Ganymede ...
... – If Jupiter were a little larger, it may have turned into a small star – 5th from the sun – Large storm – 67 moons – Ganymede ...
Benchmark One Study Guide: Science Benchmark Wed
... 1. What is the force that governs motion in the solar system? 2. What two factors affect the gravitational force between two objects? 3. Why does the moon revolve or orbit Earth instead of the Sun? 4. If Earth was larger in mass, how would the gravitational force be affected? S6E1-F Asteroids, Comet ...
... 1. What is the force that governs motion in the solar system? 2. What two factors affect the gravitational force between two objects? 3. Why does the moon revolve or orbit Earth instead of the Sun? 4. If Earth was larger in mass, how would the gravitational force be affected? S6E1-F Asteroids, Comet ...
Structure & Formation of the Solar System
... • It is by far the largest object in the Solar System. 700 times more massive than all of the other objects in the Solar System put together. • It is composed mostly of Hydrogen and Helium gas and traces of many other elements. • The Sun spins on its axis counter-clockwise. ...
... • It is by far the largest object in the Solar System. 700 times more massive than all of the other objects in the Solar System put together. • It is composed mostly of Hydrogen and Helium gas and traces of many other elements. • The Sun spins on its axis counter-clockwise. ...
Project topics
... 12. Accomplishments and contributions of past and present astronomers (Galileo, Brahe, Keper, Copernicus, Newton, Halley, Hubble, Ptolemy, Lippershey, etc.) 13. Explain the impact of Copernican and Newtonian thinking on our view of the universe. 14. Tycho Brahe and his scientific contributions. 15. ...
... 12. Accomplishments and contributions of past and present astronomers (Galileo, Brahe, Keper, Copernicus, Newton, Halley, Hubble, Ptolemy, Lippershey, etc.) 13. Explain the impact of Copernican and Newtonian thinking on our view of the universe. 14. Tycho Brahe and his scientific contributions. 15. ...
Our Solar System
... Discovered through math 7 known moons Triton largest moon Great Dark Spot thought to be a hole, similar to the hole in the ozone layer on Earth ...
... Discovered through math 7 known moons Triton largest moon Great Dark Spot thought to be a hole, similar to the hole in the ozone layer on Earth ...
Largest mountain in solar system
... Why does everything orbit the Sun? • Everything in the Solar System revolves around the Sun. Because the Sun is so large, its powerful gravity attracts all the other objects in the Solar System towards it. The planets at the same time are trying to pull away from the sun. What happens is that the p ...
... Why does everything orbit the Sun? • Everything in the Solar System revolves around the Sun. Because the Sun is so large, its powerful gravity attracts all the other objects in the Solar System towards it. The planets at the same time are trying to pull away from the sun. What happens is that the p ...
Our Solar System - Livingstone High School
... Discovered through math 7 known moons Triton largest moon Great Dark Spot thought to be a hole, similar to the hole in the ozone layer on Earth ...
... Discovered through math 7 known moons Triton largest moon Great Dark Spot thought to be a hole, similar to the hole in the ozone layer on Earth ...
Extra-Solar Planets continued
... • Star 60% as bright as the Sun and only 5% less massive than the Sun. • Outermost known planet has an orbit similar to that of Jupiter, but is 4 times the mass of Jupiter. • Inner 3 planets all lie within the orbit of Mercury – one is about the mass of Jupiter. ...
... • Star 60% as bright as the Sun and only 5% less massive than the Sun. • Outermost known planet has an orbit similar to that of Jupiter, but is 4 times the mass of Jupiter. • Inner 3 planets all lie within the orbit of Mercury – one is about the mass of Jupiter. ...
Earth Science Lecture
... a. anticyclones b. warm fronts c. cold fronts d. cyclones 15. ________ precipitation is a result of air being lifted over a highland area. a. convective b. frontal c. adiabatic d. orographic 16. The _________ of the air represents the actual quantity of water vapor held by the air a. relative humidi ...
... a. anticyclones b. warm fronts c. cold fronts d. cyclones 15. ________ precipitation is a result of air being lifted over a highland area. a. convective b. frontal c. adiabatic d. orographic 16. The _________ of the air represents the actual quantity of water vapor held by the air a. relative humidi ...
Study Questions for Test 2
... Which forms of electromagnetic radiation reach Earth’s surface and which forms are blocked by ozone and water vapor in Earth’s atmosphere? What are the three “powers” an optical telescope? Rank their importance. What is adaptive optics? What is chromatic aberration? Define in detail the following fe ...
... Which forms of electromagnetic radiation reach Earth’s surface and which forms are blocked by ozone and water vapor in Earth’s atmosphere? What are the three “powers” an optical telescope? Rank their importance. What is adaptive optics? What is chromatic aberration? Define in detail the following fe ...
inner planets
... 1. How far is Venus from the Sun? Venus is 0.4 astronomical units far from the Sun. 2. How long does the Earth need to make one complete orbit around the Sun? The Earth needs one year to make one complete orbit around the Sun. 3. How long does Uranus need to orbit the Sun? Uranus needs 83.7 years t ...
... 1. How far is Venus from the Sun? Venus is 0.4 astronomical units far from the Sun. 2. How long does the Earth need to make one complete orbit around the Sun? The Earth needs one year to make one complete orbit around the Sun. 3. How long does Uranus need to orbit the Sun? Uranus needs 83.7 years t ...
Video review
... 12. The solar system’s _____________ line is a boundary outside of which water is in a frozen state, allowing the giant gas and ice planets to form. 13. The blue-green color of the giant ice planet Uranus is due to an upper layer of __________________ gas. 14. The likely explanation of the Moon’s cr ...
... 12. The solar system’s _____________ line is a boundary outside of which water is in a frozen state, allowing the giant gas and ice planets to form. 13. The blue-green color of the giant ice planet Uranus is due to an upper layer of __________________ gas. 14. The likely explanation of the Moon’s cr ...
Solar System Review
... Explain how the individual specs of dust and frozen gasses in the solar system formed into planets. The inner planets are called the "terrestrial" planets because they do not have thick layers of gas surrounding them. The outer planets are called "gas giants" because they have very thick gas layers ...
... Explain how the individual specs of dust and frozen gasses in the solar system formed into planets. The inner planets are called the "terrestrial" planets because they do not have thick layers of gas surrounding them. The outer planets are called "gas giants" because they have very thick gas layers ...
Solar System Solar system - mad4scienceandalittlemathtoo
... Terrestrial planets- the name often given to the four inner planets. Gas planets- the name often given to the outer planets. Orbit- the path of an object as it revolves around another object in space. Revolution- the movement of an object around another object. ...
... Terrestrial planets- the name often given to the four inner planets. Gas planets- the name often given to the outer planets. Orbit- the path of an object as it revolves around another object in space. Revolution- the movement of an object around another object. ...
Unit 5B Universal Gravitation
... to view the moon and planets • Believed in and taught the Copernican heliocentric Universe • Was sentenced to house arrest by the Pope for espousing that view • May be considered the first physicist and the creator of the scientific method ...
... to view the moon and planets • Believed in and taught the Copernican heliocentric Universe • Was sentenced to house arrest by the Pope for espousing that view • May be considered the first physicist and the creator of the scientific method ...
Orrery
An orrery is a mechanical model of the solar system that illustrates or predicts the relative positions and motions of the planets and moons, usually according to the heliocentric model. It may also represent the relative sizes of these bodies; but since accurate scaling is often not practical due to the actual large ratio differences, a subdued approximation may be used instead. Though the Greeks had working planetaria, the first orrery that was a planetarium of the modern era was produced in 1704, and one was presented to Charles Boyle, 4th Earl of Orrery — whence came the name. They are typically driven by a clockwork mechanism with a globe representing the Sun at the centre, and with a planet at the end of each of the arms.