Best of the Solar System Handout.
... over 300 km long, and up to 8 km deep. The three brown circles on the left are very large volcanoes about 300 km across, larger than any volcano on Earth. You cannot see as many craters on Mars as you can see on the Moon or Mercury. MARS - Viking Lander 1 View of the Surface This scene from the surf ...
... over 300 km long, and up to 8 km deep. The three brown circles on the left are very large volcanoes about 300 km across, larger than any volcano on Earth. You cannot see as many craters on Mars as you can see on the Moon or Mercury. MARS - Viking Lander 1 View of the Surface This scene from the surf ...
Solar System Exam: Name:
... C. when the planet is in inferior conjunction. B. when the planet is in superior (full) conjunction. D. when the planet is in opposition. ____36. The average distance from earth to the sun is 93 million miles (150 million km). This is also the measurement of....? A. the semi-major axis B. the semi-m ...
... C. when the planet is in inferior conjunction. B. when the planet is in superior (full) conjunction. D. when the planet is in opposition. ____36. The average distance from earth to the sun is 93 million miles (150 million km). This is also the measurement of....? A. the semi-major axis B. the semi-m ...
The Gas Giant Planets
... Neptune had a Great Dark Spot as big as Earth. It was a storm that blew across the surface at over 700 miles per hour. It has disappeared, but a new spot is now visible. It takes Neptune 165 Earth years to complete one orbit around the sun. It takes 16 Earth hours to make one rotation. This gas gian ...
... Neptune had a Great Dark Spot as big as Earth. It was a storm that blew across the surface at over 700 miles per hour. It has disappeared, but a new spot is now visible. It takes Neptune 165 Earth years to complete one orbit around the sun. It takes 16 Earth hours to make one rotation. This gas gian ...
BENEATH THE SURFACE OF THE EARTH HOW IS THE EARTH
... Earth is believed to be the only planet with visible surface water. As over 70% of the Earth is ocean and water, from space the Earth appears as a beautiful blue globe spinning through the inky blackness of space. This is why it is referred to as the Blue Planet. ...
... Earth is believed to be the only planet with visible surface water. As over 70% of the Earth is ocean and water, from space the Earth appears as a beautiful blue globe spinning through the inky blackness of space. This is why it is referred to as the Blue Planet. ...
Chapter 11 Unit Notes Lesson 1
... 3. Objects in our solar system orbit the Sun due to the Sun’s huge mass and gravitational pull. B. Motions of Earth 1. Although we don’t sense its motion, Earth is moving rapidly through space. 2. A(n) revolution is the orbit of an object around another object. a. Earth orbits the Sun once every 365 ...
... 3. Objects in our solar system orbit the Sun due to the Sun’s huge mass and gravitational pull. B. Motions of Earth 1. Although we don’t sense its motion, Earth is moving rapidly through space. 2. A(n) revolution is the orbit of an object around another object. a. Earth orbits the Sun once every 365 ...
Solar System Webquest
... things made up to help describe the night sky _ help us tell which stars are which ______________________ 6. Why do we see different constellations throughout the year? _because the earth moves in relation to the sky 7. Define (Click on ZOOM Astronomy and then glossary): a. light year -_ the distanc ...
... things made up to help describe the night sky _ help us tell which stars are which ______________________ 6. Why do we see different constellations throughout the year? _because the earth moves in relation to the sky 7. Define (Click on ZOOM Astronomy and then glossary): a. light year -_ the distanc ...
Moon Questions
... 1. What was the moon-formation idea proposed in the mid-1970s? Possible student response: Scientists proposed the “giant-impact hypothesis.” According to this idea, a Mars-sized body called Theia collided with the Earth 4.5 billion years ago with such force that debris from both Earth and Theia was ...
... 1. What was the moon-formation idea proposed in the mid-1970s? Possible student response: Scientists proposed the “giant-impact hypothesis.” According to this idea, a Mars-sized body called Theia collided with the Earth 4.5 billion years ago with such force that debris from both Earth and Theia was ...
Rotation and Revolution
... slightly over time as it revolves around the Sun. This wobble causes the angle of Earth’s tilted axis to shift between 22° and 25°. This does not happen fast enough to be noticed on a human timescale. Rather, the shift between 22° and 25° takes about 41,000 years. This process is called a Milankovit ...
... slightly over time as it revolves around the Sun. This wobble causes the angle of Earth’s tilted axis to shift between 22° and 25°. This does not happen fast enough to be noticed on a human timescale. Rather, the shift between 22° and 25° takes about 41,000 years. This process is called a Milankovit ...
Lecture 1 - Sizes and distances, scientific notation
... For example, with a scale factor s = 1:160 = 1/160 = 0.00625, an airplane with length D = 12 meters becomes a model with length d = 0.00625*12 meters = 0.075 m = 7.5 cm. ...
... For example, with a scale factor s = 1:160 = 1/160 = 0.00625, an airplane with length D = 12 meters becomes a model with length d = 0.00625*12 meters = 0.075 m = 7.5 cm. ...
Lecture 2 - Origin of elements, classification
... Al2O3, TiO2, REE oxides), Fe and Ni metals – Further out, silicates form – Finally, ices (H2O, NH4, CH4, etc) form ...
... Al2O3, TiO2, REE oxides), Fe and Ni metals – Further out, silicates form – Finally, ices (H2O, NH4, CH4, etc) form ...
solar system? - Smithsonian Education
... all of the other planets inside me. I have quite a following of moons—more than 60 of them! You might recognize me by my large red spot, which is actually a storm three times the size of Earth. It has been raging for hundreds of years. ...
... all of the other planets inside me. I have quite a following of moons—more than 60 of them! You might recognize me by my large red spot, which is actually a storm three times the size of Earth. It has been raging for hundreds of years. ...
History of Astronomy
... Tycho Brahe – 1576 Collected data of position of planets for 20 years Able to make accurate predictions of positions without telescopes Had own “Tychonic Universe” – combination of Ptolemy and Copernicus Earth is stationary Believed in circular orbits ...
... Tycho Brahe – 1576 Collected data of position of planets for 20 years Able to make accurate predictions of positions without telescopes Had own “Tychonic Universe” – combination of Ptolemy and Copernicus Earth is stationary Believed in circular orbits ...
Earth - Astro UC
... The Magellan radar images revealed a complex terrain, including volcanoes, volcanic domes, valleys, canyons, and many pristine impact craters. The latter implies the volcanoes are largely inactive now and there is little large scale erosion. ...
... The Magellan radar images revealed a complex terrain, including volcanoes, volcanic domes, valleys, canyons, and many pristine impact craters. The latter implies the volcanoes are largely inactive now and there is little large scale erosion. ...
Intro to Astronomy Notes
... • Axis – the imaginary line that goes from the North to South Pole • Rotation – Earth’s spin on its axis (think of a top) – Earth’s rotation causes day and night – One rotation takes about 24 hours – 1 day! ...
... • Axis – the imaginary line that goes from the North to South Pole • Rotation – Earth’s spin on its axis (think of a top) – Earth’s rotation causes day and night – One rotation takes about 24 hours – 1 day! ...
time and origins power point
... Observations are indirect We were not there to see it What we can see is very slow So… – we do not try to produce a solar nebula model that exactly describes our Solar System and the planetary orbits and their masses – rather we look for a model that describes the characteristic properties of the pl ...
... Observations are indirect We were not there to see it What we can see is very slow So… – we do not try to produce a solar nebula model that exactly describes our Solar System and the planetary orbits and their masses – rather we look for a model that describes the characteristic properties of the pl ...
The Solar System
... a) Orbit: One object moving a fixed distance around another. b) Rotation: Object spinning on its axis (creates night and day on Earth). c) Revolution: Object completing one orbit (365 days on Earth = 1 year). d) Astronomical unit (AU): unit of length that is roughly the distance from the EARTH to th ...
... a) Orbit: One object moving a fixed distance around another. b) Rotation: Object spinning on its axis (creates night and day on Earth). c) Revolution: Object completing one orbit (365 days on Earth = 1 year). d) Astronomical unit (AU): unit of length that is roughly the distance from the EARTH to th ...
Orbit - Geneva 304
... Every point on Earth is attracted to the Moon; the greatest pull is located closest to the Moon Water is pulled up slightly towards the Moon = high tide (A) Land is pulled up slightly as one whole unit towards the Moon, but not as much as the water = high tide on the opposite side of the Earth ...
... Every point on Earth is attracted to the Moon; the greatest pull is located closest to the Moon Water is pulled up slightly towards the Moon = high tide (A) Land is pulled up slightly as one whole unit towards the Moon, but not as much as the water = high tide on the opposite side of the Earth ...
Benchmark #2: The Solar System
... Within this zone water can exist as solid, liquid, and gas The Goldilocks Zone depends on the brightness and temperature of the star in any given solar system All of the above are correct ...
... Within this zone water can exist as solid, liquid, and gas The Goldilocks Zone depends on the brightness and temperature of the star in any given solar system All of the above are correct ...
Kepler`s 3rd Law Applied to our Solar System
... Kepler’s 3rd Law holds for any orbital system ; the one we tested was the system of our Sun and the planets, but it also holds for the system of Jupiter and its moons (the Jovian system) The constant will be different; to find the constant for the Jovian system, use the mass of Jupiter for MS in the ...
... Kepler’s 3rd Law holds for any orbital system ; the one we tested was the system of our Sun and the planets, but it also holds for the system of Jupiter and its moons (the Jovian system) The constant will be different; to find the constant for the Jovian system, use the mass of Jupiter for MS in the ...
Physics 325 – Homework #13 due in 325 homework box by Fri, 1 pm
... On Earth, a baseball player can hit a ball 120 m by giving it an initial angle of 45° to the horizontal. Take the acceleration due to gravity as g = 10 m/s2. Suppose the batter repeats this exercise in a space “habitat” that has the form of a circular cylinder of radius R = 10 km and has an angular ...
... On Earth, a baseball player can hit a ball 120 m by giving it an initial angle of 45° to the horizontal. Take the acceleration due to gravity as g = 10 m/s2. Suppose the batter repeats this exercise in a space “habitat” that has the form of a circular cylinder of radius R = 10 km and has an angular ...
The Inner Solar System - Super Teacher Worksheets
... caps at the poles are water, forever frozen because of the colder temperatures further from Second in line comes Venus, which is the Sun. The only place the temperature rises sometimes called Earth's twin. It's about the same above freezing is at the equator, or the middle of size as Earth, but that ...
... caps at the poles are water, forever frozen because of the colder temperatures further from Second in line comes Venus, which is the Sun. The only place the temperature rises sometimes called Earth's twin. It's about the same above freezing is at the equator, or the middle of size as Earth, but that ...
The Inner Solar System - Super Teacher Worksheets
... caps at the poles are water, forever frozen because of the colder temperatures further from Second in line comes Venus, which is the Sun. The only place the temperature rises sometimes called Earth's twin. It's about the same above freezing is at the equator, or the middle of size as Earth, but that ...
... caps at the poles are water, forever frozen because of the colder temperatures further from Second in line comes Venus, which is the Sun. The only place the temperature rises sometimes called Earth's twin. It's about the same above freezing is at the equator, or the middle of size as Earth, but that ...
Georgia Milestones Review Earth
... 12. Water in a gas state is called _____________________________. 13. Give an example of evaporation. _________________________________________________________ 14. Give 4 examples of precipitation. _______________________________________ 15. Is Earth’s axis straight or tilted? ________________ 16. W ...
... 12. Water in a gas state is called _____________________________. 13. Give an example of evaporation. _________________________________________________________ 14. Give 4 examples of precipitation. _______________________________________ 15. Is Earth’s axis straight or tilted? ________________ 16. W ...
Motions of the Earth–Moon System The Earth–Moon–Sun System
... Motions of the Earth–Moon System Lunar Motions • The difference of two days between the synodic and sidereal cycles is due to the Earth–moon system also moving in an orbit around the sun. • The moon’s period of rotation about its axis and its revolution around Earth are the same, 27 1/3 days. It c ...
... Motions of the Earth–Moon System Lunar Motions • The difference of two days between the synodic and sidereal cycles is due to the Earth–moon system also moving in an orbit around the sun. • The moon’s period of rotation about its axis and its revolution around Earth are the same, 27 1/3 days. It c ...
Solar System Project (revised 2014)
... _____ Pluto//Dwarfs (see planet rubric requirements) Include when it was reclassified as a dwarf planet, why, what the classification criteria are, and examples/pictures of other dwarf planets in the Solar System. -------------------------------------------------------------------------------------- ...
... _____ Pluto//Dwarfs (see planet rubric requirements) Include when it was reclassified as a dwarf planet, why, what the classification criteria are, and examples/pictures of other dwarf planets in the Solar System. -------------------------------------------------------------------------------------- ...
Earth's rotation
Earth's rotation is the rotation of the planet Earth around its own axis. The Earth rotates from the west towards east. As viewed from North Star or polestar Polaris, the Earth turns counter-clockwise.The North Pole, also known as the Geographic North Pole or Terrestrial North Pole, is the point in the Northern Hemisphere where the Earth's axis of rotation meets its surface. This point is distinct from the Earth's North Magnetic Pole. The South Pole is the other point where the Earth's axis of rotation intersects its surface, in Antarctica.The Earth rotates once in about 24 hours with respect to the sun and once every 23 hours 56 minutes and 4 seconds with respect to the stars (see below). Earth's rotation is slowing slightly with time; thus, a day was shorter in the past. This is due to the tidal effects the Moon has on Earth's rotation. Atomic clocks show that a modern-day is longer by about 1.7 milliseconds than a century ago, slowly increasing the rate at which UTC is adjusted by leap seconds.