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planets appear to move
A planet isn't retrograde - retrograde means the direction a planet moves in relation to how we see it here on Earth or other perspectives. Planets sometimes appear to move backward due to Earth moving as well.
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Yes.
All of them, at different times. The inner planets Mercury and Venus are the only two that always appear quite close to the Sun.
The Greek word planetoi means wanderer. This is why the planets in our solar system are called planets - they appear to wander about the sky relative to the fixed stars.
The Greek word planetoi means wanderer. This is why the planets in our solar system are called planets - they appear to wander about the sky relative to the fixed stars.
no thunder does not appear in other planets
No. All the planets in our solar system are prograde. At times it can appear retrograde when viewed from earth as an affect of our relative speed during certain times of our orbit.
Other planets appear shiny from Earth for the same reason the moon does, we see the other planets' reflected sunlight.
planets appear to move
A planet isn't retrograde - retrograde means the direction a planet moves in relation to how we see it here on Earth or other perspectives. Planets sometimes appear to move backward due to Earth moving as well.
Because they appear backward.
All planets except Mercury can appear 50 degrees from the Sun.
they appear bright be cause the light from the sun is hitting the moon and planets to make them look bright.
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In the Geocentric Hypothesis (Earth-centered), retrograde motion can only be explained by describing the motion of planets as complex, curlicue paths. In the Heliocentric Hypothesis (Sun-centered), retrograde motion is described as changes in relative motion as the Earth overtakes a slower-moving planet in an outer orbit, or is overtaken by a faster-moving planet in an inner orbit. In the Heliocentric Hypothesis, all planets move in more-or-less circular orbits at more-or-less constant speeds, but planets closer to the Sun move faster. Thus, the Earth can overtake and pass each of the outer planets, making them appear to move "backward" (retrograde) for a time.