solarsys

... C. Sun going Around the Earth D. Moon light ...

Week 20 Satellites and Probes

... spacecraft, was launched 16 days before its sister craft with a lower initial velocity and similar mission. Voyager 2’s primary mission—the exploration of the four gas giants—was completed in full with a number of interesting discoveries. Studies in the Jovian system included analysis of the Great R ...

Earth`s Rotation

... So Earth’s actual rotational speed is 15°/hour Because Earth is rotating 15° every hour, this makes objects in our sky (the sun, the moon, stars) appear to move at this same speed (15°/hour). – This is the difference between “actual motion” and “apparent motion” ...

Our Solar System copy

... A space shuttle costs millions to build, it costs so much because it has to be able to be launched into space, carry out its mission then return safely. While in orbit, a space shuttle travels around Earth at a speed of about 17,500 miles per hour. At this speed, the crew can see a sunrise or sunset ...

Europlanet07-Crida

... Add a random small inclination, and a planetesimal disc close beyond Neptune (50 or 65 M) → 24 Initial Conditions. → 13 yield to a new stable configuration that resembles closely to the one of the outer planets of the Solar System. Here, the instability is triggered by the 3J:5S MMR. Then, everythi ...

I. What is an Exoplanet?

...  Surveying our neighbourhood in Milky way  As per Jan. 2013, it has found 2740 likely candidates  105 of them have been confirmed by further studies Next space mission: Gaia. To be launched in August ...

Earth History Unit

... physical characteristics of each planet type, such as size, mass, and mean density. 4. Use the concept of ratios and unit conversions to create a scale model of the solar system that accurately represents both the size and relative location of each planet within the solar system. 5. Explain the phys ...

How to Become a Planet Hunter-Careers in

... How Much Wobble? It can be measured with an accuracy of about 1 μas (quite a bit thinner than the line plotted here). “The wobble effect”: our Solar System as seen at 10 pc distance ...

Pluto and Comets

... Pluto has never been visited by a spacecraft (the New Horizons probe is on its way and will arrive in 2015) so there are no clear images of its surface. At left are Hubble Space Telescope global maps of Pluto (smaller insets are actual images) that show bright and dark areas visible as the dwarf pla ...

29-1

... _____ 1. Why do astronomers use special filters to look at the sun? a. The sun seems only one color otherwise. b. No telescope can view the sun otherwise. c. The sun’s brightness can damage one’s eyes. d. They view the sun only at night. _____ 2. What do scientists use to break up the sun’s light in ...

Solar System Formation

... Kepler II: a line between a planet and the Sun sweeps out equal areas in equal times dA/dt = constant Newton II : a line connecting two bodies (or connecting one body to the center of mass position) sweeps out equal areas in equal times dL/dt = 0 (conservation of angular momentum) Application: spect ...

Document

... The stars Vega and Sirius are brighter than the Sun, and also hotter. Where would you put them? Where would you mark the Sun on the plot? ...

Stellar Aspirations

Do extrasolar planets go bang

... as far as the orbit of Saturn, some 750 million km downstream. No wonder the jovian aurorae, powered by its magnetosphere, are so much brighter than their feebly flickering terrestrial counterparts. There are other differences, too. On Earth, the main auroral oval – roughly speaking – maps to a magn ...

Comets and the Solar System Practical Astronomy: 16 September

... Planetary Highlights ...

Comets and the Solar System Practical Astronomy: 16 September

Our Sun - LWC Earth Science

... we can divide the sun into four parts: the solar interior; the visible surface, or photosphere; and two atmospheric layers, the chromosphere and ...

ASTR_CGT_TheSun_v01x

Physics 20 Concept 22 Orbits and Satellites

... Kepler gave no explanation of why planets go around the sun. His laws are only descriptive. However, Sir Isaac Newton provided the explanation for why the moon, Earth, Sun, planets and stars moved and behaved as they did. Newton was able to explain Kepler’s three laws of planetary motion. He reasone ...

Astrophysics - Florence

... Types of planets: Jovian - gas planets Jupiter, Saturn, Uranus & Neptune Terestrial Mercury, Venus, Earth, and Mars protoplanets celestial objects the size of a moon exoplanets - Exoplanet Overview Image Source: http://www.bcssa.org/newsroom/scholarships/great8sci/Photos/Space_Photos/Solar_Syste mB. ...

Pluto and the Kuiper Belt

... massive enough for the nuclear reactions that power stars. However, they shone like faint stars for a few hundred million years while they were forming, radiating away the excess energy from their gravitational collapse. Jupiter has about 1/80th of the mass of the tiniest successful stars. Jupiter i ...

Ch. 1 - University of Tennessee Department of Physics and Astronomy

... This work is protected by United States copyright laws and is provided solely for the use of instructors in teaching their courses and assessing student learning. Dissemination or sale of any part of this work (including on the World Wide Web) will destroy the integrity of the work and is not permit ...

CI513 Instruction and Technology Lesson Planning Guide

... investigate these other satellites of the Sun in our Solar System. What curriculum framing question or essential question is addressed in this lesson? What are the other satellites of the Sun in our Solar System, besides planets? What district, state or national curriculum standard(s) will you targe ...

Full Text - Life Science Journal

... than Mercury to the Sun , just at its hydrogen surface, using the law of gravity in calculating this velocity I was very surprised when the value of it was that of an electron orbiting a proton at fifth level of energy! The accurate equivalence between the two velocities bears a deep meaning concern ...

Probeseiten 2 PDF

... be discovered in this part of the solar system? It was indeed curious that, even in the most powerful of telescopes, the new celestial objects remained little points of light, like stars, while all other planets were resolved as small, round disks. This could only mean one thing: Ceres and Pallas co ...

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Orrery

An orrery is a mechanical model of the solar system that illustrates or predicts the relative positions and motions of the planets and moons, usually according to the heliocentric model. It may also represent the relative sizes of these bodies; but since accurate scaling is often not practical due to the actual large ratio differences, a subdued approximation may be used instead. Though the Greeks had working planetaria, the first orrery that was a planetarium of the modern era was produced in 1704, and one was presented to Charles Boyle, 4th Earl of Orrery — whence came the name. They are typically driven by a clockwork mechanism with a globe representing the Sun at the centre, and with a planet at the end of each of the arms.

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Orrery