this brochure - Houston Museum Of Natural Science
... while others are tiny, almost insignificant. The specific ...
... while others are tiny, almost insignificant. The specific ...
Solar-System Bianka N
... extensive and complex in our solar system; it extends hundreds of thousands of kilometers from the planet. The rings are mostly water ice with particles ranging in size from a few micrometers to several tens of meters. ...
... extensive and complex in our solar system; it extends hundreds of thousands of kilometers from the planet. The rings are mostly water ice with particles ranging in size from a few micrometers to several tens of meters. ...
The Copernican Revolution
... from the rim of a rotating wheel). 2. Loose objects on the earth’s surface are not flung away. 3. Therefore, the Copernican model is not correct. Motion of the Moon 1. If the Copernican model were correct, then the earth would leave the moon behind as it (the earth) revolves around the sun. 2. The e ...
... from the rim of a rotating wheel). 2. Loose objects on the earth’s surface are not flung away. 3. Therefore, the Copernican model is not correct. Motion of the Moon 1. If the Copernican model were correct, then the earth would leave the moon behind as it (the earth) revolves around the sun. 2. The e ...
Earth and Seasons Powerpoint
... – NJ-cold, longer nights, Dec-Feb – Hawaii- 70’s, 12 hrs of light – Alaska-up to 24 hours of darkness – Australia-June-Sept. ...
... – NJ-cold, longer nights, Dec-Feb – Hawaii- 70’s, 12 hrs of light – Alaska-up to 24 hours of darkness – Australia-June-Sept. ...
Solar System Study Guide 1
... Earth is the third planet from the Sun and the fifth largest in the solar system. The Earth is 70 percent covered with oceans, which are the principal life habitat on Earth. The Earth has day and night because of the planet’s rotation on an imaginary axis. The Earth has changing seasons because ...
... Earth is the third planet from the Sun and the fifth largest in the solar system. The Earth is 70 percent covered with oceans, which are the principal life habitat on Earth. The Earth has day and night because of the planet’s rotation on an imaginary axis. The Earth has changing seasons because ...
Moon Hunt
... 2. How many moons are in our solar system? 3. How long does it take the Earth’s moon to make one orbit? 4. Scientists are still finding moons around which planet? 5. Who is credited with the discovery of 4 of Neptune’s moons? ...
... 2. How many moons are in our solar system? 3. How long does it take the Earth’s moon to make one orbit? 4. Scientists are still finding moons around which planet? 5. Who is credited with the discovery of 4 of Neptune’s moons? ...
Moon Hunt
... 9. The planet Mars will probably be the next in line for a visit from Earthlings. On the back of this paper give 5 facts about each of Mars’ Moons. ...
... 9. The planet Mars will probably be the next in line for a visit from Earthlings. On the back of this paper give 5 facts about each of Mars’ Moons. ...
Solar System
... Remember, you need to create a three dimensional model so your scale must be as small as possible. Indicate your scale (1 inch equals 100,000 miles) ...
... Remember, you need to create a three dimensional model so your scale must be as small as possible. Indicate your scale (1 inch equals 100,000 miles) ...
Picture File - WordPress.com
... • The sunrise occurs in the East and as the day progresses, the sun moves across the sky. By the middle-part of the day, the sun will reach the highest point in the sky. After the middle of the day, the sun will begin making its descent in the West. ...
... • The sunrise occurs in the East and as the day progresses, the sun moves across the sky. By the middle-part of the day, the sun will reach the highest point in the sky. After the middle of the day, the sun will begin making its descent in the West. ...
Conservation of Momentum
... moment of inertia, and ωrot is the angular velocity in radians per second. Treat the sun and the planets as rigid bodies, and remember that the moment of inertia factor for a body of mass M and radius a is k = I/ma2. Angular velocity is calculated by dividing the number of radians (2π) by the time i ...
... moment of inertia, and ωrot is the angular velocity in radians per second. Treat the sun and the planets as rigid bodies, and remember that the moment of inertia factor for a body of mass M and radius a is k = I/ma2. Angular velocity is calculated by dividing the number of radians (2π) by the time i ...
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 ...
Earth and the moon, sun, and planets have
... Once students have looked directly at the stars, moon, and planets, use can be made of photographs of planets and their moons and of various collections of stars to point out their variety of size, appearance, and motion. No particular educational value comes from memorizing their names or counting ...
... Once students have looked directly at the stars, moon, and planets, use can be made of photographs of planets and their moons and of various collections of stars to point out their variety of size, appearance, and motion. No particular educational value comes from memorizing their names or counting ...
Gravitation - courses.psu.edu
... the force equation like this: F = M1M2/d2. So, F = 2*10,000/22 = 20,000/4 = 5000. 5000 is one-half the orginal force value (10,000), so we conclude that doubling the Sun's mass while at the same time moving Earth to twice its present distance from the Sun would result in a gravitational force betwee ...
... the force equation like this: F = M1M2/d2. So, F = 2*10,000/22 = 20,000/4 = 5000. 5000 is one-half the orginal force value (10,000), so we conclude that doubling the Sun's mass while at the same time moving Earth to twice its present distance from the Sun would result in a gravitational force betwee ...
Moons
... been discovered on 1877. Phobos means fear. They are small rocks left over from the birth of the planets. Phobos is 27 km across at its widest point and has a large impact crater on one side. It flies around mars three times in one Martian day. Phobos may once have been asteroids that orbited the su ...
... been discovered on 1877. Phobos means fear. They are small rocks left over from the birth of the planets. Phobos is 27 km across at its widest point and has a large impact crater on one side. It flies around mars three times in one Martian day. Phobos may once have been asteroids that orbited the su ...
Smaller Bodies of the Solar System
... _______ supposedly left over from the formation of the solar system proposed as source for long-period comets and a replenisher of the Oort Cloud. beyond Neptune (extending from 30 AU out to around 100 AU). occasionally disturbed by gravitational interactions these objects are sent hurtling into ...
... _______ supposedly left over from the formation of the solar system proposed as source for long-period comets and a replenisher of the Oort Cloud. beyond Neptune (extending from 30 AU out to around 100 AU). occasionally disturbed by gravitational interactions these objects are sent hurtling into ...
Chapter 19 The Solar System Overview
... Newton- explained that gravity keeps the planets in orbit around the sun and satellites in orbit around the planets. Every object in the universe experts a gravitational force on every other object. Proposed that everything in the universe follows the same rules and acts in a predictable way. ...
... Newton- explained that gravity keeps the planets in orbit around the sun and satellites in orbit around the planets. Every object in the universe experts a gravitational force on every other object. Proposed that everything in the universe follows the same rules and acts in a predictable way. ...
the sun
... Newton- explained that gravity keeps the planets in orbit around the sun and satellites in orbit around the planets. Every object in the universe experts a gravitational force on every other object. Proposed that everything in the universe follows the same rules and acts in a predictable way. ...
... Newton- explained that gravity keeps the planets in orbit around the sun and satellites in orbit around the planets. Every object in the universe experts a gravitational force on every other object. Proposed that everything in the universe follows the same rules and acts in a predictable way. ...
Comparing the Size of the Sun to Earth
... Which components are smaller than Earth? Ceres and Charon (both are moons) and Pluto (dwarf planet), Mercury, Mars and Venus. Which components are larger than Earth? Neptune, Uranus, Saturn and Jupiter III. Meter Stick Distance Scale of the Solar System Another important relationship for scientists ...
... Which components are smaller than Earth? Ceres and Charon (both are moons) and Pluto (dwarf planet), Mercury, Mars and Venus. Which components are larger than Earth? Neptune, Uranus, Saturn and Jupiter III. Meter Stick Distance Scale of the Solar System Another important relationship for scientists ...
The Planets
... Moons:2, Phobos and Deimos (meaning fear and panic), both of which have been described as being potato shaped. Gravity:Just 37% of Earth’s, so 100kg on Earth would weigh 38kg on Mars. Magnetic field:Very weak. Mars is currently considered humanity’s best bet for a new planet to colonize. ...
... Moons:2, Phobos and Deimos (meaning fear and panic), both of which have been described as being potato shaped. Gravity:Just 37% of Earth’s, so 100kg on Earth would weigh 38kg on Mars. Magnetic field:Very weak. Mars is currently considered humanity’s best bet for a new planet to colonize. ...
Astronomy 4 Test #3 Practice 2. How were the rings of Uranus
... b. Both of Mars’s moons probably formed like the Earth’s moon, when a large impacting body collided with Mars and ejected a large volume of mantle material. c. Phobos and Deimos are probably captured asteroids, based on their sizes and appearances. d. Since Phobos and Deimos are both made of highly ...
... b. Both of Mars’s moons probably formed like the Earth’s moon, when a large impacting body collided with Mars and ejected a large volume of mantle material. c. Phobos and Deimos are probably captured asteroids, based on their sizes and appearances. d. Since Phobos and Deimos are both made of highly ...
Our Solar System
... •Spring tides occur during new and full moons. •Spring tides have the greatest range between high and low tides. Really high, high tides and really low, low tides. •Named from an Old English term meaning to jump -- NOT FROM THE ...
... •Spring tides occur during new and full moons. •Spring tides have the greatest range between high and low tides. Really high, high tides and really low, low tides. •Named from an Old English term meaning to jump -- NOT FROM THE ...
Camp Eberhart Astronomy Program AstroCamp Solar System Award
... axis in 24 hours and 37 minutes, just more than an Earth day. It also has a axial tilt of 25.5°, similar to Earths 23.5°. It has two moons, Phobos (fear) & Deimos (terror). It has the tallest mountain in the Solar System, Olympus Mons, which is 3 times taller than Mt. Everest on Earth. Jupiter: Over ...
... axis in 24 hours and 37 minutes, just more than an Earth day. It also has a axial tilt of 25.5°, similar to Earths 23.5°. It has two moons, Phobos (fear) & Deimos (terror). It has the tallest mountain in the Solar System, Olympus Mons, which is 3 times taller than Mt. Everest on Earth. Jupiter: Over ...
How to study for this course Before coming to class
... Finally, the impacts were so strong that the kinetic energy from the falling meteors turned into heat and the Earth started to melt. The melting allowed the elements that made up the Earth to combine and a process differentiation took place to give origin to the layers of Earth that we see today. Ch ...
... Finally, the impacts were so strong that the kinetic energy from the falling meteors turned into heat and the Earth started to melt. The melting allowed the elements that made up the Earth to combine and a process differentiation took place to give origin to the layers of Earth that we see today. Ch ...