Solar System PPT
... and is the seventh largest. • The first space craft to visit Mars was the Mariner 4 in 1965. • Has seasons and polar ice caps; may have water shaping its surface • Red due to rocks containing iron oxide • Two small moons Exploring Mars ...
... and is the seventh largest. • The first space craft to visit Mars was the Mariner 4 in 1965. • Has seasons and polar ice caps; may have water shaping its surface • Red due to rocks containing iron oxide • Two small moons Exploring Mars ...
Star or planet, or what?
... art”. You know good art when you see it, but it is extremely difficult to define. And like poetry and prose, you can easily point to good examples of each, but infrequently one comes across something that is neither one thing nor the other. The zoological approach leans heavily of the work of Martin ...
... art”. You know good art when you see it, but it is extremely difficult to define. And like poetry and prose, you can easily point to good examples of each, but infrequently one comes across something that is neither one thing nor the other. The zoological approach leans heavily of the work of Martin ...
SOLAR SYSTEM
... It has 63 moons, 4 of which (Io, Europa, Ganymede, and Callisto) are referred to as the Galilean Moons because they were first seen by Galileo Galilei in 1610 It takes 11 years to revolve around the sun, yet it has the fastest rotation (11 hours) Its largest moon, Ganymede, is larger than the ...
... It has 63 moons, 4 of which (Io, Europa, Ganymede, and Callisto) are referred to as the Galilean Moons because they were first seen by Galileo Galilei in 1610 It takes 11 years to revolve around the sun, yet it has the fastest rotation (11 hours) Its largest moon, Ganymede, is larger than the ...
The Origin of the Solar System
... gravitationally attracting material from the protostellar cloud Jovian planets (gas giants) ...
... gravitationally attracting material from the protostellar cloud Jovian planets (gas giants) ...
Key 3 - UNLV Physics
... 27. Which of the following has the most volcanic activity in the solar system? (a) Mercury (b) Mars (c) Io (d) Titan 28. Water arrived on Earth (a) from the initial accretion (b) it was accreted out of the gas (c) from comets during the heavy bombardment following the formation (d) from volcano’s ( ...
... 27. Which of the following has the most volcanic activity in the solar system? (a) Mercury (b) Mars (c) Io (d) Titan 28. Water arrived on Earth (a) from the initial accretion (b) it was accreted out of the gas (c) from comets during the heavy bombardment following the formation (d) from volcano’s ( ...
Astronomy Chapter 11 – Meteors, Comets and Asteroids A. Main
... interplanetary space into an irregular mass with a diameter of around 10 kilometers → The tail emerges from a cloud of gas called the coma, which can be some 100,000 kilometers in diameter. The coma and the tail contain very little mass. • Composition of Comets ⇒ Comets are rich in water, carbon dio ...
... interplanetary space into an irregular mass with a diameter of around 10 kilometers → The tail emerges from a cloud of gas called the coma, which can be some 100,000 kilometers in diameter. The coma and the tail contain very little mass. • Composition of Comets ⇒ Comets are rich in water, carbon dio ...
JANUARY 2011 ASTRONOMY From the Trackman Planetarium at
... line that make up the Hunter’s belt. The red star that marks his shoulder is Betelgeuse. Betelgeuse is red because it is cooling down and about to go supernova - explode. Of course “soon” in astronomical terms can mean anytime in the next million years. Betelgeuse is between 450 and 850 light years ...
... line that make up the Hunter’s belt. The red star that marks his shoulder is Betelgeuse. Betelgeuse is red because it is cooling down and about to go supernova - explode. Of course “soon” in astronomical terms can mean anytime in the next million years. Betelgeuse is between 450 and 850 light years ...
the interstellar medium - Howard University Physics and Astronomy
... • The Earth, and other inner (terrestrial) planets of our Solar System, are made up primarily of heavy elements (such as oxygen, silicon, and iron). • This was due to their lower initial masses, and higher temperatures, which made them unable to incorporate the light gases, hydrogen and helium. • Th ...
... • The Earth, and other inner (terrestrial) planets of our Solar System, are made up primarily of heavy elements (such as oxygen, silicon, and iron). • This was due to their lower initial masses, and higher temperatures, which made them unable to incorporate the light gases, hydrogen and helium. • Th ...
Astronomy II (ASTR1020) — Exam 1 Test No. 1D
... 4. Which of the following best describes a photon’s journey inside the Sun? a) Travels in a straight line at the speed of 2.997925 × 105 km/s. b) Travels in a curved path following the Sun’s magnetic field. c) Travels in a zig-zag (random walk) type of path. d) Photons do not exist inside the Sun. e ...
... 4. Which of the following best describes a photon’s journey inside the Sun? a) Travels in a straight line at the speed of 2.997925 × 105 km/s. b) Travels in a curved path following the Sun’s magnetic field. c) Travels in a zig-zag (random walk) type of path. d) Photons do not exist inside the Sun. e ...
Studying Planets in the Solar System
... include photos, illustrations, and any other multimedia materials that groups wish to present. The materials created by each group will be part of a class solar system display. 2. Have the class brainstorm information to be included in the planetary profiles. Suggested topic questions include the fo ...
... include photos, illustrations, and any other multimedia materials that groups wish to present. The materials created by each group will be part of a class solar system display. 2. Have the class brainstorm information to be included in the planetary profiles. Suggested topic questions include the fo ...
HERE
... Fusion- Hydrogren fusing into helium mass lost is turned into energy. E=mc2 Click HERE for fusion animation. ...
... Fusion- Hydrogren fusing into helium mass lost is turned into energy. E=mc2 Click HERE for fusion animation. ...
Life Cycle of Our Sun
... About 4.6 billion years ago a great swirl of gas and dust some 15 billion miles across in this location in space and began to condense forming our Sun. Virtually 99.9 percent of the mass of our Solar System is the Sun. Our Sun has lived almost 5 billion years of its life and will lived approximat ...
... About 4.6 billion years ago a great swirl of gas and dust some 15 billion miles across in this location in space and began to condense forming our Sun. Virtually 99.9 percent of the mass of our Solar System is the Sun. Our Sun has lived almost 5 billion years of its life and will lived approximat ...
Eight Planet System PowerPoint
... •Temperature is 464o C. The hottest planet due the largest amount of greenhouse gases. •Atmosphere is mostly carbon dioxide. •Fun Fact: Venus is called the Evening Star. It is called this because it looks so bright to us from Earth. ...
... •Temperature is 464o C. The hottest planet due the largest amount of greenhouse gases. •Atmosphere is mostly carbon dioxide. •Fun Fact: Venus is called the Evening Star. It is called this because it looks so bright to us from Earth. ...
32) What spacecraft mission crashed because the NASA contractor
... 17) Which of the following is not one of, nor a direct consequence of, Kepler's Laws? A) More distant planets orbit the Sun at slower speeds. B) The orbit of each planet about the Sun is an ellipse with the Sun at one focus. C) The force of attraction between any two objects decreases with the squar ...
... 17) Which of the following is not one of, nor a direct consequence of, Kepler's Laws? A) More distant planets orbit the Sun at slower speeds. B) The orbit of each planet about the Sun is an ellipse with the Sun at one focus. C) The force of attraction between any two objects decreases with the squar ...
Phys 100 – Astronomy (Dr. Ilias Fernini) Review Questions for
... a radius of 6.4 cm. If you were to construct a scale model of the solar system using the rubber ball to represent the earth, what is the radius of a ball needed to represent the sun in your model? a. 7.0105 cm b. 7.0 cm c. 700 cm ...
... a radius of 6.4 cm. If you were to construct a scale model of the solar system using the rubber ball to represent the earth, what is the radius of a ball needed to represent the sun in your model? a. 7.0105 cm b. 7.0 cm c. 700 cm ...
8th Grade 2nd Semester Test Chapters 13, 16, 18
... 52. The four terrestrial planets all have a. Hot temperatures b. Rocky surfaces c. Deep atmospheres d. Large size 53. A stream of particles that extends outward from the sun’s corona is called a. A sunspot b. Chromosphere c. Prominence d. Solar wind ...
... 52. The four terrestrial planets all have a. Hot temperatures b. Rocky surfaces c. Deep atmospheres d. Large size 53. A stream of particles that extends outward from the sun’s corona is called a. A sunspot b. Chromosphere c. Prominence d. Solar wind ...
The Sun`s Exterior
... Typical sunspots are about the size of Earth. They appear dark because they are cooler: 5000 K. ...
... Typical sunspots are about the size of Earth. They appear dark because they are cooler: 5000 K. ...
File
... after about ____ billion years they become ________ _______. INTERMEDIATE MASS STARS Stars like the Sun run out of hydrogen after about ____ billion years... core collapses under _____________ pressure core heats up and ________ begins to fuse into other elements (carbon) outer surface expan ...
... after about ____ billion years they become ________ _______. INTERMEDIATE MASS STARS Stars like the Sun run out of hydrogen after about ____ billion years... core collapses under _____________ pressure core heats up and ________ begins to fuse into other elements (carbon) outer surface expan ...
1– AST104 Sp04: WELCOME TO EXAM 2 Multiple Choice Questions
... the moon support(s) the large impact/ejected ring model of the moon’s formation? ...
... the moon support(s) the large impact/ejected ring model of the moon’s formation? ...
Science, 4th 9 weeks
... The cosmos is vast and explored well enough to know its basic structure and operational principles. Everything in the Universe exerts a gravitational force on everything else; there is interplay between magnetic fields and electrical currents. ...
... The cosmos is vast and explored well enough to know its basic structure and operational principles. Everything in the Universe exerts a gravitational force on everything else; there is interplay between magnetic fields and electrical currents. ...
Solar System
The Solar System comprises the Sun and the planetary system that orbits it, either directly or indirectly. Of those objects that orbit the Sun directly, the largest eight are the planets, with the remainder being significantly smaller objects, such as dwarf planets and small Solar System bodies such as comets and asteroids. Of those that orbit the Sun indirectly, two are larger than the smallest planet.The Solar System formed 4.6 billion years ago from the gravitational collapse of a giant interstellar molecular cloud. The vast majority of the system's mass is in the Sun, with most of the remaining mass contained in Jupiter. The four smaller inner planets, Mercury, Venus, Earth and Mars, are terrestrial planets, being primarily composed of rock and metal. The four outer planets are giant planets, being substantially more massive than the terrestrials. The two largest, Jupiter and Saturn, are gas giants, being composed mainly of hydrogen and helium; the two outermost planets, Uranus and Neptune, are ice giants, being composed largely of substances with relatively high melting points compared with hydrogen and helium, called ices, such as water, ammonia and methane. All planets have almost circular orbits that lie within a nearly flat disc called the ecliptic.The Solar System also contains smaller objects. The asteroid belt, which lies between Mars and Jupiter, mostly contains objects composed, like the terrestrial planets, of rock and metal. Beyond Neptune's orbit lie the Kuiper belt and scattered disc, populations of trans-Neptunian objects composed mostly of ices, and beyond them a newly discovered population of sednoids. Within these populations are several dozen to possibly tens of thousands of objects large enough to have been rounded by their own gravity. Such objects are categorized as dwarf planets. Identified dwarf planets include the asteroid Ceres and the trans-Neptunian objects Pluto and Eris. In addition to these two regions, various other small-body populations, including comets, centaurs and interplanetary dust, freely travel between regions. Six of the planets, at least three of the dwarf planets, and many of the smaller bodies are orbited by natural satellites, usually termed ""moons"" after the Moon. Each of the outer planets is encircled by planetary rings of dust and other small objects.The solar wind, a stream of charged particles flowing outwards from the Sun, creates a bubble-like region in the interstellar medium known as the heliosphere. The heliopause is the point at which pressure from the solar wind is equal to the opposing pressure of interstellar wind; it extends out to the edge of the scattered disc. The Oort cloud, which is believed to be the source for long-period comets, may also exist at a distance roughly a thousand times further than the heliosphere. The Solar System is located in the Orion Arm, 26,000 light-years from the center of the Milky Way.