Document
... • Stars don’t live forever. Stars expand as it grows old. After the hydrogen (fuel) is used up, the star will begin to die. The core contracts and the outer layers expand, cool, and become less bright. It then becomes a red giant star. • Helium is now being used, and the core begins to shrink, and o ...
... • Stars don’t live forever. Stars expand as it grows old. After the hydrogen (fuel) is used up, the star will begin to die. The core contracts and the outer layers expand, cool, and become less bright. It then becomes a red giant star. • Helium is now being used, and the core begins to shrink, and o ...
Saturn – The Jewel in the Crown - High Legh Community Observatory
... The dark area in the rings is the Cassini Division The rings are composed of billions of water ice particles orbiting the planet. Range in size from millimetres to large chunks ...
... The dark area in the rings is the Cassini Division The rings are composed of billions of water ice particles orbiting the planet. Range in size from millimetres to large chunks ...
File
... material that never formed into planets. ~ The Main Asteroid Belt is located between Mars and Jupiter. ~ More than 40,000 asteroids have been ...
... material that never formed into planets. ~ The Main Asteroid Belt is located between Mars and Jupiter. ~ More than 40,000 asteroids have been ...
Quiz # 2 - Oglethorpe University
... considered evidence for which model? A. The geocentric model B. The heliocentric model C. Neither model could explain this fact. 3.) In what way did Aristotle influence the acceptance of the heliocentric theory in 15th-century Europe? A. His philosophy assumed the geocentric theory and was adopted b ...
... considered evidence for which model? A. The geocentric model B. The heliocentric model C. Neither model could explain this fact. 3.) In what way did Aristotle influence the acceptance of the heliocentric theory in 15th-century Europe? A. His philosophy assumed the geocentric theory and was adopted b ...
Quiz 2 Key - Oglethorpe University
... considered evidence for which model? A. The geocentric model B. The heliocentric model C. Neither model could explain this fact. 3.) In what way did Aristotle influence the acceptance of the heliocentric theory in 15th-century Europe? A. His philosophy assumed the geocentric theory and was adopted b ...
... considered evidence for which model? A. The geocentric model B. The heliocentric model C. Neither model could explain this fact. 3.) In what way did Aristotle influence the acceptance of the heliocentric theory in 15th-century Europe? A. His philosophy assumed the geocentric theory and was adopted b ...
Dynamics of the Earth
... Consequence: Celestial coordinates keep changing. The celestial pole traces a circular path with period 26,000 yr => precession of equinoxes 360o/26,000 yr = 50”/yr along ecliptic. Celestial coordinates must be updated to current epoch. Also, motion of Sun/Moon above and below equatorial plane => nu ...
... Consequence: Celestial coordinates keep changing. The celestial pole traces a circular path with period 26,000 yr => precession of equinoxes 360o/26,000 yr = 50”/yr along ecliptic. Celestial coordinates must be updated to current epoch. Also, motion of Sun/Moon above and below equatorial plane => nu ...
Phys 100 – Astronomy (Dr. Ilias Fernini) Review Questions for
... Earth, Solar System, Milky Way, galaxy clusters Solar System, Earth, galaxy clusters, Milky Way Earth, Milky Way, Solar System, galaxy clusters Galaxy clusters, Solar System, Milky Way, Earth ...
... Earth, Solar System, Milky Way, galaxy clusters Solar System, Earth, galaxy clusters, Milky Way Earth, Milky Way, Solar System, galaxy clusters Galaxy clusters, Solar System, Milky Way, Earth ...
Today`s Powerpoint
... Aristotle: Sun, Moon, Planets and Stars rotate around fixed Earth. Aristarchus: Used geometry of eclipses to show Sun bigger than Earth (and Moon smaller), so guessed that Earth orbits the Sun. Also guessed Earth spins on its axis once a day => apparent motion of stars. Aristotle: But there's no win ...
... Aristotle: Sun, Moon, Planets and Stars rotate around fixed Earth. Aristarchus: Used geometry of eclipses to show Sun bigger than Earth (and Moon smaller), so guessed that Earth orbits the Sun. Also guessed Earth spins on its axis once a day => apparent motion of stars. Aristotle: But there's no win ...
Quiz # 1 - Tue 09/15/2011
... 2. From the smallest to the largest, the correct order of the following objects is: A. Earth’s orbit, Jupiter, Milky Way Galaxy, Solar System B. Earth’ orbit, Milky Way Galaxy, Solar System, Jupiter C. Solar System, Earth’s orbit, Milky Way Galaxy, Jupiter D. Milky Way Galaxy, Jupiter, Earth’s orbit ...
... 2. From the smallest to the largest, the correct order of the following objects is: A. Earth’s orbit, Jupiter, Milky Way Galaxy, Solar System B. Earth’ orbit, Milky Way Galaxy, Solar System, Jupiter C. Solar System, Earth’s orbit, Milky Way Galaxy, Jupiter D. Milky Way Galaxy, Jupiter, Earth’s orbit ...
space
... measure of distance based on the speed of light (186,000 miles per second) ~ the total number ol seconds 'in a year's time .. ...
... measure of distance based on the speed of light (186,000 miles per second) ~ the total number ol seconds 'in a year's time .. ...
Aust Curriculum Connections 2012
... Could I land on Jupiter? How many “years” old would I be if I lived on other planets? How long would it take to travel there? Why are some bodies covered in craters? Why not the Earth? The Southern Cross as a compass, and a clock. Characteristics of the planets and other solar system bodies (moons, ...
... Could I land on Jupiter? How many “years” old would I be if I lived on other planets? How long would it take to travel there? Why are some bodies covered in craters? Why not the Earth? The Southern Cross as a compass, and a clock. Characteristics of the planets and other solar system bodies (moons, ...
Extrasolar Planets = 403
... • Disk shape of solar system- orbit inclination; prograde motion; nearly same tilt of rotation axes • Jovian and terrestrial planet types- low/high density • Planetary ring & satellite systems for gas giants • Space Debris – icy comets, rocky asteroids, meteors • Common ages of Earth, moon, Mars, me ...
... • Disk shape of solar system- orbit inclination; prograde motion; nearly same tilt of rotation axes • Jovian and terrestrial planet types- low/high density • Planetary ring & satellite systems for gas giants • Space Debris – icy comets, rocky asteroids, meteors • Common ages of Earth, moon, Mars, me ...
Earth Space Systems Semester 1 Exam Astronomy Vocabulary Astronomical Unit-
... A star plot on the diagonal line in the Hertzsprung - Russell diagram (H-R) which graphs luminosity and surface temperature. Once a star is stable and its gravitational inward pull overcomes the stars outward release of energy, it can be graphed on the Main Sequence. A star lives about 90% of its li ...
... A star plot on the diagonal line in the Hertzsprung - Russell diagram (H-R) which graphs luminosity and surface temperature. Once a star is stable and its gravitational inward pull overcomes the stars outward release of energy, it can be graphed on the Main Sequence. A star lives about 90% of its li ...
ASTR 1010 – Spring 2016 – Study Notes Dr. Magnani
... should change as the Earth went part of the way around its orbit. Since no observed shift in position is detected with the naked eye over many months, the Earth could not be moving around t ...
... should change as the Earth went part of the way around its orbit. Since no observed shift in position is detected with the naked eye over many months, the Earth could not be moving around t ...
Mercury Venus Mars Jupiter Saturn Uranus Neptune Type (rocky or
... least 63 moons, the 4 main top), Great White Spot (like these moons are irregular largest one in the solar ones are called Galilean Jupiter's Great White Spot 13 known rings, 27 in shape. Triton, is its most system. It also has 2 Satellites - one of the main known moons, Named notable and only circu ...
... least 63 moons, the 4 main top), Great White Spot (like these moons are irregular largest one in the solar ones are called Galilean Jupiter's Great White Spot 13 known rings, 27 in shape. Triton, is its most system. It also has 2 Satellites - one of the main known moons, Named notable and only circu ...
Understanding Orbits
... planetary status By definition, a planet: Orbits around the Sun Has sufficient mass for its self-gravity to overcome rigid body forces so that it ...
... planetary status By definition, a planet: Orbits around the Sun Has sufficient mass for its self-gravity to overcome rigid body forces so that it ...
Understanding Orbits
... planetary status By definition, a planet: Orbits around the Sun Has sufficient mass for its self-gravity to overcome rigid body forces so that it ...
... planetary status By definition, a planet: Orbits around the Sun Has sufficient mass for its self-gravity to overcome rigid body forces so that it ...
Grade 3: Solar System
... stand. Students will do this step four times in four opposite Lesson 2 - Solar System Rotation and Revolution ...
... stand. Students will do this step four times in four opposite Lesson 2 - Solar System Rotation and Revolution ...
JUNO FACT CARD Name
... We revise vocabulary related to Solar System, using the white interactive board, showing the different pictures of the planets and using them to introduce some characteristic about the different resources in these planets some years ago... Was there water in Mars? Did animals live in Venus some year ...
... We revise vocabulary related to Solar System, using the white interactive board, showing the different pictures of the planets and using them to introduce some characteristic about the different resources in these planets some years ago... Was there water in Mars? Did animals live in Venus some year ...
star - Bakersfield College
... understanding of the solar system? 2. What is Newton’s contribution to our solar system --- the way we look at the solar system today? I will get an A on my exams and quizzes. ...
... understanding of the solar system? 2. What is Newton’s contribution to our solar system --- the way we look at the solar system today? I will get an A on my exams and quizzes. ...
Chapter 24 PowerPoint
... background radiation at the ground, but there is no evidence that previous reversals have had any major biological effect. The forces due to the interaction of the solar and terrestrial magnetic fields are only very small perturbations. ...
... background radiation at the ground, but there is no evidence that previous reversals have had any major biological effect. The forces due to the interaction of the solar and terrestrial magnetic fields are only very small perturbations. ...
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.