Saturn*s moon - OPResume.com
... the same amount of time that it completes an orbit around Saturn. This rate of rotation keeps one side of Titan facing Saturn at all times. Orbits Saturn in the plane of the planets equator sharing Saturn’s 26.7 degree tilt towards the sun. Titan experiences seasons in the course of it’s year, which ...
... the same amount of time that it completes an orbit around Saturn. This rate of rotation keeps one side of Titan facing Saturn at all times. Orbits Saturn in the plane of the planets equator sharing Saturn’s 26.7 degree tilt towards the sun. Titan experiences seasons in the course of it’s year, which ...
Meet the Dwarf Planets Pluto: The Demoted Former Planet
... Ceres is the only dwarf planet not found in the freezing cold, faraway Kuiper Belt. Rather, it orbits in the main asteroid belt between Mars and Jupiter, completing one lap around the sun every 4.6 years. Ceres is by far the largest object in the asteroid belt, containing about one-third of the belt ...
... Ceres is the only dwarf planet not found in the freezing cold, faraway Kuiper Belt. Rather, it orbits in the main asteroid belt between Mars and Jupiter, completing one lap around the sun every 4.6 years. Ceres is by far the largest object in the asteroid belt, containing about one-third of the belt ...
Lecture18
... The four inner moons of Jupiter - Io, Europa, and Ganymede - all show evidence of geological activity - indicators of molten interiors. The heat source is tidal heating. Moons have elliptical orbit and synchronous rotation - one side always faces Jupiter - as Ganymede completes one orbit, Europa com ...
... The four inner moons of Jupiter - Io, Europa, and Ganymede - all show evidence of geological activity - indicators of molten interiors. The heat source is tidal heating. Moons have elliptical orbit and synchronous rotation - one side always faces Jupiter - as Ganymede completes one orbit, Europa com ...
DO IT YOURSELF SIMPLE TEMPLATE FORMAT
... orbits by gravity. Name all of the objects you can think of that orbit the Sun. Write down what you know about each one. This activity will look specifically at planets, which are relatively large objects circling the Sun. You will run a model and be able to change a planet's mass, velocity and posi ...
... orbits by gravity. Name all of the objects you can think of that orbit the Sun. Write down what you know about each one. This activity will look specifically at planets, which are relatively large objects circling the Sun. You will run a model and be able to change a planet's mass, velocity and posi ...
October - Sonoma County Astronomical Society
... Capodimonte in Naples, Italy. This newly discovered extrasolar planet is more than 3 times as large as Jupiter. It used to orbit its star, called V391 Pegasi, at about the same distance that Earth is from the sun. V391 Pegasi belongs to a rare class of stars, called B-type subdwarfs. It started out ...
... Capodimonte in Naples, Italy. This newly discovered extrasolar planet is more than 3 times as large as Jupiter. It used to orbit its star, called V391 Pegasi, at about the same distance that Earth is from the sun. V391 Pegasi belongs to a rare class of stars, called B-type subdwarfs. It started out ...
Outer Planets
... •The interaction between solar wind and the magnetic field cause Jupiter to have auroras. •It also has intense lightning storms ...
... •The interaction between solar wind and the magnetic field cause Jupiter to have auroras. •It also has intense lightning storms ...
the earth in space - North Salem Schools Teachers Module
... B. The movements of planets across the nighttime sky is not uniform 1. The reason planets have non-uniform motion is that they really are moving in space - stars only look like they’re moving 2. Planets rotate while they revolve a. we know this because features on the planets surface vary in a predi ...
... B. The movements of planets across the nighttime sky is not uniform 1. The reason planets have non-uniform motion is that they really are moving in space - stars only look like they’re moving 2. Planets rotate while they revolve a. we know this because features on the planets surface vary in a predi ...
NEO lecture 02 - Observations of NEOs
... What was the impact energy of the ‘Sudan event’ compared to the Hiroshima bomb? The ‘Sudan event’ (2008 TC3) was an elongated object with <10 m size – assume 5 m x 5 m x 5 m Assume an entry velocity of 15 km/s Densities of recovered meteorites varied from 2 to 3 g/cm3 – assume 2.5 g/cm3 Impa ...
... What was the impact energy of the ‘Sudan event’ compared to the Hiroshima bomb? The ‘Sudan event’ (2008 TC3) was an elongated object with <10 m size – assume 5 m x 5 m x 5 m Assume an entry velocity of 15 km/s Densities of recovered meteorites varied from 2 to 3 g/cm3 – assume 2.5 g/cm3 Impa ...
DTU 8e Lecture PPT Chap 8 The Outer Planets v2
... The light-colored zones and dark-colored belts in Jupiter’s atmosphere were believed, until recently, to be regions of rising and descending gases, respectively. In the zones, gases warmed by heat from Jupiter’s interior were thought to rise upward and cool, forming high-altitude clouds. In the belt ...
... The light-colored zones and dark-colored belts in Jupiter’s atmosphere were believed, until recently, to be regions of rising and descending gases, respectively. In the zones, gases warmed by heat from Jupiter’s interior were thought to rise upward and cool, forming high-altitude clouds. In the belt ...
Space 2006
... longest day and the southern hemisphere has its shortest day: beginning of summer in the northern hemisphere. June 21st-22nd Winter solstice-time of year when the northern hemisphere has its shortest day and the southern hemisphere has its longest day: beginning of winter in the northern hemisphere. ...
... longest day and the southern hemisphere has its shortest day: beginning of summer in the northern hemisphere. June 21st-22nd Winter solstice-time of year when the northern hemisphere has its shortest day and the southern hemisphere has its longest day: beginning of winter in the northern hemisphere. ...
Magma Genesis in Orogenic Belts
... DIAPIRS which rise into upper crust As more and more diapirs rise, over-riding plate heats up Heating leads to partial melting of early formed diorites, producing GRANITIC magmas Low density (2.4-2.6) viscous granitic magmas rise slowly through denser crust (2.9) Magma reaches equilibrium around 3-5 ...
... DIAPIRS which rise into upper crust As more and more diapirs rise, over-riding plate heats up Heating leads to partial melting of early formed diorites, producing GRANITIC magmas Low density (2.4-2.6) viscous granitic magmas rise slowly through denser crust (2.9) Magma reaches equilibrium around 3-5 ...
Gökküre - itü | fizik mühendisliği
... • In 1604 he observed the SN studied by Kepler. • He thought this was a new star. • The new star showed no motion accross the sky compared with the other stars (i.e. No parallax) • Gave series of lectures arguing that it must be as far away from the Earth as the other stars. • This refutes the Arist ...
... • In 1604 he observed the SN studied by Kepler. • He thought this was a new star. • The new star showed no motion accross the sky compared with the other stars (i.e. No parallax) • Gave series of lectures arguing that it must be as far away from the Earth as the other stars. • This refutes the Arist ...
Mallory
... ♥ It’s 52,400 km across. ♥ It’s 2,870 km from the sun. ♥ It spins different from the other planets. ♥ It is the last of the giant gas planets. ...
... ♥ It’s 52,400 km across. ♥ It’s 2,870 km from the sun. ♥ It spins different from the other planets. ♥ It is the last of the giant gas planets. ...
Triple Conjunction of Jupiter and Saturn
... Thus, there are some discrepancies of the actual conjunction dates that are recorded in the UB and those proposed by Parpola, although they are fairly close. There are some software which can be used to track the movements of planets in any year, including 7 BC, and someone presented these conjuncti ...
... Thus, there are some discrepancies of the actual conjunction dates that are recorded in the UB and those proposed by Parpola, although they are fairly close. There are some software which can be used to track the movements of planets in any year, including 7 BC, and someone presented these conjuncti ...
A) its rotation B) the pull of the sun and moon C) storms on the sun`s
... 13. Planetary winds and ocean currents are deflected to the right in the Northern Hemisphere and to the left in the Southern Hemisphere due to A) seasonal changes B) plate tectonics C) the Doppler effect D) the Coriolis effect 14. Which statement best describes Earth’s approximate rates of rotation ...
... 13. Planetary winds and ocean currents are deflected to the right in the Northern Hemisphere and to the left in the Southern Hemisphere due to A) seasonal changes B) plate tectonics C) the Doppler effect D) the Coriolis effect 14. Which statement best describes Earth’s approximate rates of rotation ...
update : Feb.27,2014
... to remove much of debris from system to reduce impacts on earth not close enough to significantly affect Earth’s orbit ...
... to remove much of debris from system to reduce impacts on earth not close enough to significantly affect Earth’s orbit ...
How Big Is Jupiter? - Nevada Outdoor School
... 1. Divide the large hot dog shape into two equal pieces. Now make four marks on each half, so that each half will be split into five equal parts. Now you have ten parts. Put 6 parts into the Jupiter box. Put 3 parts into the Saturn box. 2. Roll the remaining part into a hot dog shape and divide ...
... 1. Divide the large hot dog shape into two equal pieces. Now make four marks on each half, so that each half will be split into five equal parts. Now you have ten parts. Put 6 parts into the Jupiter box. Put 3 parts into the Saturn box. 2. Roll the remaining part into a hot dog shape and divide ...
File
... 13. Planetary winds and ocean currents are deflected to the right in the Northern Hemisphere and to the left in the Southern Hemisphere due to A) seasonal changes B) plate tectonics C) the Doppler effect D) the Coriolis effect 14. Which statement best describes Earth’s approximate rates of rotation ...
... 13. Planetary winds and ocean currents are deflected to the right in the Northern Hemisphere and to the left in the Southern Hemisphere due to A) seasonal changes B) plate tectonics C) the Doppler effect D) the Coriolis effect 14. Which statement best describes Earth’s approximate rates of rotation ...
Voyage Through the Solar System
... on where the planet is located (Yes; longer days and shorter years on terrestrial planets close to the Sun, shorter days and longer years on Jovian planets far from the Sun, and a long day and a long year on Pluto.) Do the seasons depend on where the planet is located? (Just the length of seasons, w ...
... on where the planet is located (Yes; longer days and shorter years on terrestrial planets close to the Sun, shorter days and longer years on Jovian planets far from the Sun, and a long day and a long year on Pluto.) Do the seasons depend on where the planet is located? (Just the length of seasons, w ...
Document
... • Life seems to appear quite easily in favorable conditions • But maybe it needs very special conditions for intelligence to emerge (= to become an asset in natural selection) • On Earth, it took more than 2 billion years for life to go from unicellulars to more complex cratures! → our Galaxy is ful ...
... • Life seems to appear quite easily in favorable conditions • But maybe it needs very special conditions for intelligence to emerge (= to become an asset in natural selection) • On Earth, it took more than 2 billion years for life to go from unicellulars to more complex cratures! → our Galaxy is ful ...
Objectives for Units 1-3
... a. The first theory suggests it was formed elsewhere and was captured as it passed the Earth. (The adoption theory.) b. The second suggests that the Moon was formed and evolved right along with earth. (The twins theory.) c. The third suggests that the Moon was once part of the Earth, and as denser m ...
... a. The first theory suggests it was formed elsewhere and was captured as it passed the Earth. (The adoption theory.) b. The second suggests that the Moon was formed and evolved right along with earth. (The twins theory.) c. The third suggests that the Moon was once part of the Earth, and as denser m ...
Overheads for Pat`s lecture
... show compositional variations, particularly in their trace element contents. Nevertheless, they show definite and coherent trends - the least-depleted peridotites (lowest MgO, but highest CaO, Al2O3 and other incompatible trace elements that partition into the liquid phase during partial melting (i. ...
... show compositional variations, particularly in their trace element contents. Nevertheless, they show definite and coherent trends - the least-depleted peridotites (lowest MgO, but highest CaO, Al2O3 and other incompatible trace elements that partition into the liquid phase during partial melting (i. ...
ppt
... -- the results we are seeing in the data is partly a selection effect: most sensitive to massive, inner planets; but will improve with time ...
... -- the results we are seeing in the data is partly a selection effect: most sensitive to massive, inner planets; but will improve with time ...
From the Everett and Seattle Astronomical
... Mercury is the closest planet to our Sun, and the least explored of the socalled terrestrial planets, which are the four rocky inner planets that also include Venus, Earth, and Mars. Other than 3 flybys by Mariner 10 in 1974 and ’75, no other spacecraft have yet explored the first rock from the Sun. ...
... Mercury is the closest planet to our Sun, and the least explored of the socalled terrestrial planets, which are the four rocky inner planets that also include Venus, Earth, and Mars. Other than 3 flybys by Mariner 10 in 1974 and ’75, no other spacecraft have yet explored the first rock from the Sun. ...
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.