Space
online
activities - general overview
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Astronomy
animations Celestial Sphere, Different Constellations at Different Times
of the Year, Retrograde Motion of Mars, Star Rise and Set Caused by Earths
Rotation, The change in number of hours of daylight as seasons change,
Animations, Different Constellations at Different Times of the Year, The
Suns Motion North and South in the Sky as the Seasons Change, The Earths
Rotation Axis, The Movement of the Moons Nodes, ... |
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Astronomy
animations Celestial Sphere, Earth Wobble, Sun in Ecliptic, Solar
verses, Sidereal day, Seasons, Seasons and Sunlight, Moon Phases, Moon's
motion and phases, Moon tilt orbit, Total, Partial and Annular Eclipses |
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Astronomy and the Universe
click below animations and videos |
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Astronomy movies |
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Astronomy web simulations stellar parallax, eclipsing binary stars,
binary star system, stellar evolution |
| GeoAstro
applet collection Java Applets for detailed solar and lunar data and observe the daily and
annual path of the sun and moon for any location |
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Java Applets for
Teaching of AstroPhysics |
| Java
applets on astronomy
Kepler's laws |
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Planetarium a series of Java applets to show solar system motions |
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Space &
earth java applets Space &
earth java applets, Julian Date/Calendar Date. Calendar, sidereal time,
obliquity of ecliptic, nutation, precession, Observer's location. Kepler
Elements and State Vector, Visualize Kepler Orbit. Orbit Elements of the
Solar System at a given epoch, Visualize Solar System at a given Epoch,
Simple transformations of reference frames, Planet's position in different
reference frames. Comet's position in different reference frames, Day and
Night Sky |
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Space animations nasa, moon, astronomy,
Introduction to the Earth, Day and Night & Seasons, Northern Lights,
Introduction to the Moon, Lunar Surface, Phases of the Moon, Solar and Lunar
Eclipses, Tides and Tidal Interaction |
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Space animations |
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Space animations |
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Horizontaal |
Astronomy animations and java applets
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Black
Holes demonstrates gravity described by a Newtonian central force and
the motion near a black hole described by Einstein's theory of general
relativity differ qualitatively |
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Comet simulation |
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Coriolis force Coriolis force simulation |
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Coriolis force and noninertial effects |
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Comet
Halley's Orbit in the Solar System |
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Comet's passage through the solar system These animations simulate the
orbit of comet Halley, which takes about 76 years to orbit the sun |
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Constellation GPS |
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Cruithne
Cruithne, some simulations of Cruithne, also known as asteroid 3753, or 1986
TO, or "Earth's second moon" |
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Doppler Effect, Red Shift |
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Doppler shift
flash |
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Elliptical orbit and circular orbit mov file |
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Evolution of a
Star Cluster See how the HR diagram and visual appearance of a star
cluster change with time |
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Examine the vast distances between planets in the solar system |
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Expanding
universe flash |
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Galactic
Gravity Simulations |
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GPS and GLONASS simulation |
| Gravity and
planetary orbits interactive gravity simulator |
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Gravity Simulation This applet simulates Newtonian mechanics with
gravity |
| Internet
stellar database internet stellar database |
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J-Pass
an interactive site which displays tracks of artificial satellites visible
over a given location |
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Kepler's
first law |
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Kepler’s laws Kepler's Laws animation, construct your own planetary orbits
and check Kepler’s Laws |
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Kepler's Laws
Examine Kepler's Laws of planetary motion by picking masses and orbit shapes and
viewing the resultant motion. |
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Kepler's
motion the planets move in elliptical orbits with the sun at one focus |
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Kepler's
motion |
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Kepler's
second law Kepler's second law of the undisturbed planetary motion: The
line joining the planet to the Sun sweeps out equal areas in equal intervals of
time |
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Kepler's
second law |
| Kepler's
third law shows the planets mercury, venus and earth revolving round the
Sun. The distances and times of motion are scaled correctly |
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Kepler's third law
applet |
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Lightclock Einstein’s famous clock bouncing
light between two mirrors |
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Lois de Kepler en Français |
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Michelson-Morley Experiment |
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Milky Way Galaxy at different scales view images of our galaxy at
different scales |
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Milky Way Our Home in the Milky Way |
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Mir Location
Where is Mir? |
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Moon landing |
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Orbit and Tail of a Comet |
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Orbits
shows the trajectories of two bodies orbiting a central object |
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Orbits With this applet you can put your own satellite into orbit around
Earth |
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Orbits: Exploring orbits |
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Orbits: Gravitational Orbits Kepler's Laws |
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Orbits in Strongly
Curved Spacetime |
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Orbits
Demonstration of Space Satellite in Orbit |
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Orbits |
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Orbits
of a binary star Orbits of a binary star |
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Orbits: Projectile Orbits and Satellite orbits |
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Orbit simulator |
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Orbit simulator
The applet is a gravitational simulator of orbits in space |
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Orbits: Satellite
Orbits The applet is designed to permit the satellite radius to be changed
and the plane of the satellite through the centre of the Earth, with respect to
the equatorial plane, to be changed,
Educypedia |
| Planetary
detection via Doppler wobble of the host star |
| Planetary
motion shows the motion of a moon around a planet under the influence
of gravity |
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Planètes en Français,
Référentiel terrestre en Français |
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Refracting Astronomical
Telescope simulates a simple refracting astronomical (inverting) telescope,
consisting of two lenses which are called the objective and the eyepiece
(ocular) |
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Satellite animations |
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Satellite Motion |
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Satellite Motion
Place a satellite by clicking the mouse button at the place where you want it to
start |
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Satellite Projection Kepler's laws |
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Satellite radio signal monitoring satellite listening |
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Satellites |
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Satellite Tracking
NASA Satellites and Station Tracking |
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Satellite Tracking |
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Satellite Tracking
Real Time Satellite Tracking |
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Slingshot effect |
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Slingshot effect
Slingshot effect |
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Space calendar
the space calendar covers space-related activities and anniversaries for the
coming year |
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Space Station
Human Space Flight (HSF) - Orbital Tracking, showing the day and night regions
at this moment |
| Twin
paradox applet twin paradox applet |
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Visualize Comets' and Planets' positions for a given Observer |
| Visualize
Kepler Orbit due to Kepler's third law the satellite is moving fast when
near to the center body and slowly when far away from it, Keppler ellips |
| Wetten
van Newton, ontsnappingssnelheid in Dutch |
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Email: info[add]educypedia.be
Last updated on:
2008-06-12
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http://www.educypedia.be
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