UNIVERSE & SOLAR SYSTEM - Employee Directory
... Asteroids • Most lie between Mars and Jupiter • Small bodies – largest (Ceres) is about 620 ...
... Asteroids • Most lie between Mars and Jupiter • Small bodies – largest (Ceres) is about 620 ...
Moon and Rings - Mid
... Europa - slightly smaller than our Moon Ganymede - largest moon in Solar System, slightly larger than Mercury The closer to Jupiter, the higher the moon density (similar to behavior of terrestrial planets) => like mini “planetary” system! Intense heat of young Jupiter played role of sun. ...
... Europa - slightly smaller than our Moon Ganymede - largest moon in Solar System, slightly larger than Mercury The closer to Jupiter, the higher the moon density (similar to behavior of terrestrial planets) => like mini “planetary” system! Intense heat of young Jupiter played role of sun. ...
Test and answer key - Solar Physics and Space Weather
... D *at opposition—hence closest to Earth. 17. The zones and belts of Jupiter A *are cloud bands pulled into stripes by differential rotation. B are hurricanes created by a combination of heating and convection. C are rings of numerous small particles at different speed D are created by differential h ...
... D *at opposition—hence closest to Earth. 17. The zones and belts of Jupiter A *are cloud bands pulled into stripes by differential rotation. B are hurricanes created by a combination of heating and convection. C are rings of numerous small particles at different speed D are created by differential h ...
3rd Astronomy Exam: The Solar System and the Sun 14 April 2014
... c. The water is out gassed from volcanoes that release the small amount of water bound in the origin rocky planetesimals the Earth formed from. d. The water was captured as it evaporated off the Sun’s surface. e. Water is everywhere so it is natural for the Earth to have oceans. ...
... c. The water is out gassed from volcanoes that release the small amount of water bound in the origin rocky planetesimals the Earth formed from. d. The water was captured as it evaporated off the Sun’s surface. e. Water is everywhere so it is natural for the Earth to have oceans. ...
Jade and Marisol.key
... mass is 318 times greater. All other planets in the Solar System could fit inside of it. Jupiter actually has barely visible rings. Its red spot is a giant storm that has been there for thousands of years. It has 39 known moons, more than other planets. This planet has no seasons because its axis is ...
... mass is 318 times greater. All other planets in the Solar System could fit inside of it. Jupiter actually has barely visible rings. Its red spot is a giant storm that has been there for thousands of years. It has 39 known moons, more than other planets. This planet has no seasons because its axis is ...
The Solar System - School of Physics
... Moons of Jupiter • 16 Moons with 4 giants (Galilean satellites). • Io: Volcanic, sulphur-covered, kept molten through tidal heating. • Europa: covered in ice with intricate pattern of cracks – tidal heating supports oceans, life?? ...
... Moons of Jupiter • 16 Moons with 4 giants (Galilean satellites). • Io: Volcanic, sulphur-covered, kept molten through tidal heating. • Europa: covered in ice with intricate pattern of cracks – tidal heating supports oceans, life?? ...
planets finalized - Hewlett
... around a fixed sun. Thus Mercury, Venus, the Earth, Mars, Jupiter and Saturn all revolve around the sun ...
... around a fixed sun. Thus Mercury, Venus, the Earth, Mars, Jupiter and Saturn all revolve around the sun ...
Six Earths fit lined up side by side in
... If Jupiter was 55.5 inches circumference then Earth would be 9 ¼ inches in circumference. Jupiter has 67 moons: Io, Europa, Ganymede – which is the biggest moon in solar system, and Caslisto Jupiter has 4 rings It takes Jupiter 11.86 years to orbit the sun Jupiter's average temperature is -108 degre ...
... If Jupiter was 55.5 inches circumference then Earth would be 9 ¼ inches in circumference. Jupiter has 67 moons: Io, Europa, Ganymede – which is the biggest moon in solar system, and Caslisto Jupiter has 4 rings It takes Jupiter 11.86 years to orbit the sun Jupiter's average temperature is -108 degre ...
Some Moons of Gas Giants
... the crust has been pushed and pulled by the material beneath it. The outer two moons have craters over most of their surfaces. The other moons of the gas giants are all smaller than Pluto, with diameters ranging from about 1600 kilometers (1000 mi) down to just a few kilometers. The smallest moons h ...
... the crust has been pushed and pulled by the material beneath it. The outer two moons have craters over most of their surfaces. The other moons of the gas giants are all smaller than Pluto, with diameters ranging from about 1600 kilometers (1000 mi) down to just a few kilometers. The smallest moons h ...
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 ...
Solar System Study Guide
... Which of these are true for inner (terrestrial) planets and which are true of outer (gas) planets? Which are false in general? A. They are made of lighter elements. B. They are extremely large C. They are spaced more closely together. D. They do not have any moons. Where does the asteroid belt fall ...
... Which of these are true for inner (terrestrial) planets and which are true of outer (gas) planets? Which are false in general? A. They are made of lighter elements. B. They are extremely large C. They are spaced more closely together. D. They do not have any moons. Where does the asteroid belt fall ...
samSolar System powerpoint
... also have ice mixed into them. They have very long orbits, and when they come close to the Sun, the heat melts the ice from them, and then it gets a long bright tail. Comets are bigger than meteors and they don’t have to enter our atmosphere to be seen. Comets can be seen for many weeks as they move ...
... also have ice mixed into them. They have very long orbits, and when they come close to the Sun, the heat melts the ice from them, and then it gets a long bright tail. Comets are bigger than meteors and they don’t have to enter our atmosphere to be seen. Comets can be seen for many weeks as they move ...
Slide 1
... •Jupiter is so big that over 1,000 planets the size of Earth could fit into it. •It has over 60 moons and 3 rings. •Can life exist on Jupiter's moon, Europa? ...
... •Jupiter is so big that over 1,000 planets the size of Earth could fit into it. •It has over 60 moons and 3 rings. •Can life exist on Jupiter's moon, Europa? ...
Solar System Scaled Down: Lesson on Proportions
... Space, Putting it into Perspective The purpose of this project is to educate and illustrate about our solar system. We need to put the distances into a scale model to give us a sense of the proportion of our universe. This project will be to show the relative distances in the solar system. *An astro ...
... Space, Putting it into Perspective The purpose of this project is to educate and illustrate about our solar system. We need to put the distances into a scale model to give us a sense of the proportion of our universe. This project will be to show the relative distances in the solar system. *An astro ...
CH23
... • Many of the recent impacts on the Moon and Earth were collisions with asteroids • Irregular shapes except largest half dozen or so, which are spherical • A few visible to naked eye when brightest ...
... • Many of the recent impacts on the Moon and Earth were collisions with asteroids • Irregular shapes except largest half dozen or so, which are spherical • A few visible to naked eye when brightest ...
The Solar System
... 2. …have small diameters. 3. …have high densities. 4. …have solid surfaces. 5. …have few or no moons. ...
... 2. …have small diameters. 3. …have high densities. 4. …have solid surfaces. 5. …have few or no moons. ...
Jupiter
... far into space in a region surrounding the planet called its magnetic field. Jupiter's magnetic field is about 14 times as strong as Earth's, according to measurements made by spacecraft. Jupiter's magnetic field is the strongest in the solar system, except for fields associated with sunspots and ot ...
... far into space in a region surrounding the planet called its magnetic field. Jupiter's magnetic field is about 14 times as strong as Earth's, according to measurements made by spacecraft. Jupiter's magnetic field is the strongest in the solar system, except for fields associated with sunspots and ot ...
4.1 Transformations The following table shows the average distance
... (a) Is a linear model appropriate between distance from the sun vs length of year? Explain. (b) Transform the data to make a more appropriate linear model. Is this model an appropriate linear model between distance from sun vs length of year? Explain. (c) There has been some debate among astronomers ...
... (a) Is a linear model appropriate between distance from the sun vs length of year? Explain. (b) Transform the data to make a more appropriate linear model. Is this model an appropriate linear model between distance from sun vs length of year? Explain. (c) There has been some debate among astronomers ...
SCALE MODEL OF SOLAR SYSTEM
... Earth's moon) are shown in addition to the dimensions at a scale of 1 to 1 Billion. The scale model sizes can be easily illustrated with scale models (spheres of the appropriate sizes) or diagrams (such as on the attached page) of the planets and their positions relative to the Sun in the scale mode ...
... Earth's moon) are shown in addition to the dimensions at a scale of 1 to 1 Billion. The scale model sizes can be easily illustrated with scale models (spheres of the appropriate sizes) or diagrams (such as on the attached page) of the planets and their positions relative to the Sun in the scale mode ...
EAS 100 SCALE MODEL OF THE SOLAR SYSTEM
... Earth's moon) are shown in addition to the dimensions at a scale of 1 to 1 Billion. The scale model sizes can be easily illustrated with scale models (spheres of the appropriate sizes) or diagrams (such as on the attached page) of the planets and their positions relative to the Sun in the scale mode ...
... Earth's moon) are shown in addition to the dimensions at a scale of 1 to 1 Billion. The scale model sizes can be easily illustrated with scale models (spheres of the appropriate sizes) or diagrams (such as on the attached page) of the planets and their positions relative to the Sun in the scale mode ...
Kepler assignment 2012
... the following equation? (G=6.67x10-11 N*m2/kg2 and MJupiter = 1.9 x 1027 kg) Question 6 a) Galileo also studied the four largest of Jupiter's moons. The moons orbiting Jupiter follow the same laws of motion as the planets orbiting the sun. One of the moons is called Io - its distance from Jupiter's ...
... the following equation? (G=6.67x10-11 N*m2/kg2 and MJupiter = 1.9 x 1027 kg) Question 6 a) Galileo also studied the four largest of Jupiter's moons. The moons orbiting Jupiter follow the same laws of motion as the planets orbiting the sun. One of the moons is called Io - its distance from Jupiter's ...
Nice model
The Nice model (/ˈniːs/) is a scenario for the dynamical evolution of the Solar System. It is named for the location of the Observatoire de la Côte d'Azur, where it was initially developed, in Nice, France. It proposes the migration of the giant planets from an initial compact configuration into their present positions, long after the dissipation of the initial protoplanetary gas disk. In this way, it differs from earlier models of the Solar System's formation. This planetary migration is used in dynamical simulations of the Solar System to explain historical events including the Late Heavy Bombardment of the inner Solar System, the formation of the Oort cloud, and the existence of populations of small Solar System bodies including the Kuiper belt, the Neptune and Jupiter Trojans, and the numerous resonant trans-Neptunian objects dominated by Neptune. Its success at reproducing many of the observed features of the Solar System means that it is widely accepted as the current most realistic model of the Solar System's early evolution, though it is not universally favoured among planetary scientists. One of its limitations is reproducing the outer-system satellites and the Kuiper belt (see below).