Geology 110: Earth and Space Science
... #10: Complete the following concept map by correctly adding the connecting phrases or terms provided to the appropriate locations. Some items may be used more than once; others may not be applicable to this diagram. ...
... #10: Complete the following concept map by correctly adding the connecting phrases or terms provided to the appropriate locations. Some items may be used more than once; others may not be applicable to this diagram. ...
Lab_Solar system scale inside_afw
... 1. Draw a 25 cm line across the map of this area starting from the base of the flag at Pickens Middle (Junior High). 2. Starting from PMS, use the scale to show where each of the planets would be located. ...
... 1. Draw a 25 cm line across the map of this area starting from the base of the flag at Pickens Middle (Junior High). 2. Starting from PMS, use the scale to show where each of the planets would be located. ...
Jovian Planets and Satellites
... liquids (lots of hydrogen) plus ices (methane, ammonia) • Cores: Rocky with some metals (earthlike); hot (few 10,000 K); temperature falls from center outward ...
... liquids (lots of hydrogen) plus ices (methane, ammonia) • Cores: Rocky with some metals (earthlike); hot (few 10,000 K); temperature falls from center outward ...
Teacher Resource Pack: Year 7/8
... The Martian day is about the same as an Earth day however Mars takes nearly twice as long to orbit the sun. Mars is nearly half the size of the Earth and its surface temperature is below freezing. Standing on Mars you would feel much lighter because gravity on Mars is about one third that of Earth’s ...
... The Martian day is about the same as an Earth day however Mars takes nearly twice as long to orbit the sun. Mars is nearly half the size of the Earth and its surface temperature is below freezing. Standing on Mars you would feel much lighter because gravity on Mars is about one third that of Earth’s ...
Planets Which of the following lists the outer planets
... D. We have not discovered any dunes on Titan. Which of the out planets has rings? A. Jupiter. B. Saturn. C. Uranus. D. Neptune. E. All of the outer planets have a ring system. What observational evidence suggests that Uranus was struck by a large planetesimal early in its formation? A. Astronomers h ...
... D. We have not discovered any dunes on Titan. Which of the out planets has rings? A. Jupiter. B. Saturn. C. Uranus. D. Neptune. E. All of the outer planets have a ring system. What observational evidence suggests that Uranus was struck by a large planetesimal early in its formation? A. Astronomers h ...
Earth, Moon, and Sun - Effingham County Schools
... 25. What is an AU? An AU is an astronomical unit. It is the distance between the Earth and the Sun. How many miles are in an AU? 93,000,000. We use AU to measure distance in our solar system. 26. Why does the Sun and Moon appear to be the same size? The moon is 400 times smaller than the Sun and it ...
... 25. What is an AU? An AU is an astronomical unit. It is the distance between the Earth and the Sun. How many miles are in an AU? 93,000,000. We use AU to measure distance in our solar system. 26. Why does the Sun and Moon appear to be the same size? The moon is 400 times smaller than the Sun and it ...
AOD Example
... • On the FIND tab, click on the boxes to the right of each planet. • On the VIEWING OPTIONS tab shut off all objects but the planets. • Select and center the sun, zoom in until Saturn's orbit fills the screen, rotate the image until Earth is below the sun. Copy it to a Word document and print it out ...
... • On the FIND tab, click on the boxes to the right of each planet. • On the VIEWING OPTIONS tab shut off all objects but the planets. • Select and center the sun, zoom in until Saturn's orbit fills the screen, rotate the image until Earth is below the sun. Copy it to a Word document and print it out ...
Solar System Teacher Tips
... causes the tides in the Earth’s oceans. Kuiper Belt: a band of icy rocks (including most planetoids) that orbit the Sun, extending from the orbit of Neptune to the Oort Cloud. Meteor: meteoroid burning as it enters a planet’s atmosphere (commonly, but incorrectly identified as “shooting stars”). Met ...
... causes the tides in the Earth’s oceans. Kuiper Belt: a band of icy rocks (including most planetoids) that orbit the Sun, extending from the orbit of Neptune to the Oort Cloud. Meteor: meteoroid burning as it enters a planet’s atmosphere (commonly, but incorrectly identified as “shooting stars”). Met ...
Rotation - Cloudfront.net
... The main results of the earth’s rotation are night and day There are two kinds of days! Mean Solar day – time interval from one noon to the next (~ 24 hours) Sidereal day – the time it takes for the Earth to make one complete rotation with respect to a star other than our sun (23 hours, 26 min ...
... The main results of the earth’s rotation are night and day There are two kinds of days! Mean Solar day – time interval from one noon to the next (~ 24 hours) Sidereal day – the time it takes for the Earth to make one complete rotation with respect to a star other than our sun (23 hours, 26 min ...
Problem Set #1
... Finding the A.U. (and the scale of the solar system). The classical greeks estimated the relative distances of the Moon and the Sun, but not absolute values. Although we now know the A.U. (the mean radius of the Earth’s orbit) to within about a meter, historically it was very hard to determine. You ...
... Finding the A.U. (and the scale of the solar system). The classical greeks estimated the relative distances of the Moon and the Sun, but not absolute values. Although we now know the A.U. (the mean radius of the Earth’s orbit) to within about a meter, historically it was very hard to determine. You ...
Some space objects are visible to the human eye.
... The movements of planets and other nearby objects are visible from Earth. A jet plane travels at a greater speed and altitude than a bird. Yet if a bird and a plane flew overhead at the same time, you might think that the bird was faster. You would have this impression because the farther away a mo ...
... The movements of planets and other nearby objects are visible from Earth. A jet plane travels at a greater speed and altitude than a bird. Yet if a bird and a plane flew overhead at the same time, you might think that the bird was faster. You would have this impression because the farther away a mo ...
The Cycles of the Moon
... Apparent Motion of the Inner Planets Mercury appears at most ~28º from the sun. It can occasionally be seen shortly after sunset in the west or before sunrise in the east. Venus appears at most ~ 46º from the sun. It can occasionally be seen for at most a few hours after sunset in the west or befor ...
... Apparent Motion of the Inner Planets Mercury appears at most ~28º from the sun. It can occasionally be seen shortly after sunset in the west or before sunrise in the east. Venus appears at most ~ 46º from the sun. It can occasionally be seen for at most a few hours after sunset in the west or befor ...
S E N S ` 2 0 0 6
... and helium are the most common elements in the Universe. Despite their abundant nature, their abundance is not so great on the inner terrestrial planets. One explanation is the follows (Solar Nebula Theory): At the initial state, the solar nebula is roughly less than 50 K (which is less than the con ...
... and helium are the most common elements in the Universe. Despite their abundant nature, their abundance is not so great on the inner terrestrial planets. One explanation is the follows (Solar Nebula Theory): At the initial state, the solar nebula is roughly less than 50 K (which is less than the con ...
ASTR-1020: Astronomy II Course Lecture Notes - Faculty
... e) There is no magic going on here, just chemistry being powered by an energy source (i.e., the Sun). Mutations from cosmic rays and the UV radiation from the Sun cause further alterations to these long molecule chains =⇒ variation in lifeforms begin on Earth. Natural selection begins in earnest cau ...
... e) There is no magic going on here, just chemistry being powered by an energy source (i.e., the Sun). Mutations from cosmic rays and the UV radiation from the Sun cause further alterations to these long molecule chains =⇒ variation in lifeforms begin on Earth. Natural selection begins in earnest cau ...
Orbits - Sunny Okanagan
... • Then solar eclipse paths would be exactly where we would expect them to be calculating backwards in time. • Thus a sun miracle is often followed by another one half an orbit later. • The sun dropping model is the same as the earth shift model, thus the sun may move back and forth half an orbit la ...
... • Then solar eclipse paths would be exactly where we would expect them to be calculating backwards in time. • Thus a sun miracle is often followed by another one half an orbit later. • The sun dropping model is the same as the earth shift model, thus the sun may move back and forth half an orbit la ...
The Planets - ChoicesVideo.net
... mapped it, studied its composition, and discovered evidence of water ice at both its poles. Mariner 10 — An unmanned mission, launched in November 1973, that arrived at Mercury in March 1974 and photographed the planet. meteorite — A chunk of material from space that enters the Earth's atmosphere an ...
... mapped it, studied its composition, and discovered evidence of water ice at both its poles. Mariner 10 — An unmanned mission, launched in November 1973, that arrived at Mercury in March 1974 and photographed the planet. meteorite — A chunk of material from space that enters the Earth's atmosphere an ...
Astronomy Powerpoint
... nuclei into the nucleus of a helium atom, releasing a tremendous amount of energy. • During nuclear fusion, energy is released because some matter is actually converted to energy. • It is thought that a star the size of the sun can exist in its present stable state for 10 billion years. As the sun i ...
... nuclei into the nucleus of a helium atom, releasing a tremendous amount of energy. • During nuclear fusion, energy is released because some matter is actually converted to energy. • It is thought that a star the size of the sun can exist in its present stable state for 10 billion years. As the sun i ...
SC.5.E.5.1, SC.5.E.5.3, SC.4.E.5.4 - Earth in Space
... •http://www.calendar-365.com/moon/current-moon-phase.html Moon phase chart resource: moon watch flip book Department of Mathematics and Science ...
... •http://www.calendar-365.com/moon/current-moon-phase.html Moon phase chart resource: moon watch flip book Department of Mathematics and Science ...
Day and Night - Effingham County Schools
... • Pluto was once known as the ninth planet. In 2006, astronomers classified it as a dwarf planet. Pluto is smaller than any planet. It is made of rocks and frozen gases. It has no rings and only one moon. ...
... • Pluto was once known as the ninth planet. In 2006, astronomers classified it as a dwarf planet. Pluto is smaller than any planet. It is made of rocks and frozen gases. It has no rings and only one moon. ...
AST111, Lecture 1b
... and they help you calculate the orbital elements. This allows others to find the object again later. Minor Planet Electronic Circulars Circulars (MPECs) are such reports. • A list of positions on the sky (in RA and DEC) as a function of time is known as an ephemeris. • Many objects are being discove ...
... and they help you calculate the orbital elements. This allows others to find the object again later. Minor Planet Electronic Circulars Circulars (MPECs) are such reports. • A list of positions on the sky (in RA and DEC) as a function of time is known as an ephemeris. • Many objects are being discove ...
Origin, evolution and distribution of life in the Solar System
... TPF and Darwin will go beyond the three previous techniques for exoplanet hunting: wobbling stars, transits and microlensing (when a dark mass passes in front of a background star, the light from the star can be significantly magnified). ...
... TPF and Darwin will go beyond the three previous techniques for exoplanet hunting: wobbling stars, transits and microlensing (when a dark mass passes in front of a background star, the light from the star can be significantly magnified). ...
report
... Due to my long term sub position in 8th grade Science ending just as the class was starting the Solar System, I was unable to perform my lesson for an actual classroom. ...
... Due to my long term sub position in 8th grade Science ending just as the class was starting the Solar System, I was unable to perform my lesson for an actual classroom. ...
Late Heavy Bombardment
The Late Heavy Bombardment (abbreviated LHB and also known as the lunar cataclysm) is a hypothetical event thought to have occurred approximately 4.1 to 3.8 billion years (Ga) ago, corresponding to the Neohadean and Eoarchean eras on Earth. During this interval, a disproportionately large number of asteroids apparently collided with the early terrestrial planets in the inner Solar System, including Mercury, Venus, Earth, and Mars. The LHB happened after the Earth and other rocky planets had formed and accreted most of their mass, but still quite early in Earth's history.Evidence for the LHB derives from lunar samples brought back by the Apollo astronauts. Isotopic dating of Moon rocks implies that most impact melts occurred in a rather narrow interval of time. Several hypotheses are now offered to explain the apparent spike in the flux of impactors (i.e. asteroids and comets) in the inner Solar System, but no consensus yet exists. The Nice model is popular among planetary scientists; it postulates that the gas giant planets underwent orbital migration and scattered objects in the asteroid and/or Kuiper belts into eccentric orbits, and thereby into the path of the terrestrial planets. Other researchers argue that the lunar sample data do not require a cataclysmic cratering event near 3.9 Ga, and that the apparent clustering of impact melt ages near this time is an artifact of sampling materials retrieved from a single large impact basin. They also note that the rate of impact cratering could be significantly different between the outer and inner zones of the Solar System.