The planet will still rise in the east and set in the west.
The "retrograde" motion is relative the stars, and to its previous position; you won't see it move moment to moment, but night after night, you can see that it normally creeps one way across the sky, but for a couple of weeks near the conjunction, it will seem to creep the other way across the sky before going back to its normal direction.
Venus is the inner planet that has a retrograde rotation, meaning it rotates on its axis in the opposite direction to its orbit around the sun. This causes the sun to rise in the west and set in the east on Venus.
Venus is the inner planet that spins with a retrograde rotation, meaning it rotates on its axis in the opposite direction to its orbit around the Sun. This phenomena causes the Sun to rise in the west and set in the east on Venus.
The planets that have a retrograde rotation are Venus and Uranus. The object Pluto, which was once considered a planet actually has the type of rotation as well. It is now considered a dwarf planet.
It's Venus, not Mercury. Mercury spins slowly, but not in a retrograde rotation. Venus spins the opposite way from the other planets, except for one of the outer planets (Uranus).
All the planets in orbits larger than the Earth have retrograde motion. Of those that can be seen from the Earth by the naked eye, this means Mars, Jupiter and Saturn. But, of course, also, Uranus and Neptune will have such a retrograde motion. This arises from the fact that we are observing rotating planets from a planet that is itself rotating about the Sun. Planets closer to the Sun than us (Mercury and Venus) do not exhibit such motion but intyerchange morning and evening star position and rise and fall depending on the time of the year.,
Venus is the inner planet that has a retrograde rotation, meaning it rotates on its axis in the opposite direction to its orbit around the sun. This causes the sun to rise in the west and set in the east on Venus.
Venus is the inner planet that spins with a retrograde rotation, meaning it rotates on its axis in the opposite direction to its orbit around the Sun. This phenomena causes the Sun to rise in the west and set in the east on Venus.
The planets that have a retrograde rotation are Venus and Uranus. The object Pluto, which was once considered a planet actually has the type of rotation as well. It is now considered a dwarf planet.
It's Venus, not Mercury. Mercury spins slowly, but not in a retrograde rotation. Venus spins the opposite way from the other planets, except for one of the outer planets (Uranus).
The word you're looking for is "retrograde".
Venus rotation about its axis, in which the sun appears to rise in the west and set in the east, is called a retrograde rotation.
Venus has no moon and evidences retrograde rotation from east to west (orbits "upside down", rotating the opposite direction to its orbit) - such that a Venusian observer might see the Sun rise in the west, and set in the east.
All the planets in orbits larger than the Earth have retrograde motion. Of those that can be seen from the Earth by the naked eye, this means Mars, Jupiter and Saturn. But, of course, also, Uranus and Neptune will have such a retrograde motion. This arises from the fact that we are observing rotating planets from a planet that is itself rotating about the Sun. Planets closer to the Sun than us (Mercury and Venus) do not exhibit such motion but intyerchange morning and evening star position and rise and fall depending on the time of the year.,
The only planet that spends in the opposite direction from the rest is Venus, but at an incredibly slow rate. It takes something like 248 earth days for it to make one complete rotation (in case it's not clear, our earth makes one complete rotation in 1 earth day). No-one actually knows why Venus spins in this opposite direction but it is very interesting because it must have been an absolutely catastrophic event for something so drastic to have happened. Also, amusingly, it was only quite recently that scientists discovered that it rotates retrograde because the thick layer of clouds covering the surface of the planet are rotating in the opposite direction to that of the planet, and thus the same direction as all the other planets, making it look completely normal to anyone without specialist equipment.
Anywhere on our planet really, but as you get nearer the poles the rising and setting will shift around a lot more with the changing seasons. On Venus, you would see the sun rise in the west and set in the east, since that planet rotates the opposite way to earth.
This question is a bit vague, as retrograde could describe a planet's orbit about its parent star, or its spin about its axis. Retrograde is a term meaning in opposite of the norm. Most objects in our Solar System orbit the Sun in a counter-clockwise direction from the perspective of an observer above the Sun's north pole, and also spin in a counter-clockwise direction. There are no known planets in retrograde orbit about their parent star, but there are a few objects in our Solar System which are in retrograde orbit (Halley's Comet among them). The largest known object with a retrograde orbit is Triton, a moon of Neptune; Triton orbits Neptune in a retrograde fashion. If Earth's moon had a retrograde orbit (instead of the prograde, or regular orbit, it actually has) the way Triton has about Neptune, the observable effects from the perspective of someone on earth would be the moon rising in the West and setting in the East (instead of rising in the East and setting in the West as it presently appears to), tides would be different, and the moon would likely not have the same side facing earth (so there would be no 'dark side of the moon' constantly hidden from earth; we would be able to see the moon spin) because the moon would likely not become tidally locked with the earth as it has become with its actual prograde orbit about the earth. Two planets have a retrograde spin: Venus and Uranus. Uranus is actually, essentially, tipped on its side compared with the other planets, with its poles nearly pointing toward the sun and its equator (the line of latitude of the planet midway between its axes) spinning nearly perpendicularly to the solar plane. Venus is more closely aligned with the solar plane, but it spins in a clockwise fashion compared with the other planets. If we were on Venus, the effect of its retrograde spin (compared with being on Earth and its prograde spin) would be the sun would appear to rise in the West and set in the East instead of (as we observe on earth) rising in the East and setting in the West.
Caesar, the ape with human-like intelligence, is the main protagonist of the film. Rise of the Planet of the Apes was the first movie to have a CG motion capture protagonist.