All the planets revolve around themselves in a counter-clockwise direction, except Venus and Uranus.
The rotational direction of Venus and Uranus is opposite to the direction of the rest of the planets.
The inner planets, such as Mercury, Venus, Earth, and Mars, have shorter rotational periods ranging from about 24 hours to a few days. In comparison, the outer planets, like Jupiter, Saturn, Uranus, and Neptune, have longer rotational periods ranging from around 10 hours to a few days. This difference is mainly due to the size and mass distribution of the planets.
Venus and Uranus are the two planets that spin backwards compared to the majority of the planets in our solar system. Venus rotates in the opposite direction to its orbit around the Sun, while Uranus is tilted on its side, causing its rotational axis to be nearly parallel to its orbit.
Uranus.
None of the four outer planets, they all have rotational periods shorter than 24 hours. The dwarf planet Pluto has a rotational period of 6.4 days though.
The rotational direction of Venus and Uranus is opposite to the direction of the rest of the planets.
Rotational time of the planets is random (the length of the planet's day), but the outer planets do spin faster than the inner planets.
The inner planets, such as Mercury, Venus, Earth, and Mars, have shorter rotational periods ranging from about 24 hours to a few days. In comparison, the outer planets, like Jupiter, Saturn, Uranus, and Neptune, have longer rotational periods ranging from around 10 hours to a few days. This difference is mainly due to the size and mass distribution of the planets.
Mars, like all of the planets except Venus, rotates in counterclockwise motion. The planet has a rotational speed of 868.22 km/h at the equator.
Venus and Uranus are the two planets that spin backwards compared to the majority of the planets in our solar system. Venus rotates in the opposite direction to its orbit around the Sun, while Uranus is tilted on its side, causing its rotational axis to be nearly parallel to its orbit.
Uranus.
The direction of torque determines the direction of rotational motion of an object. Torque is a force that causes an object to rotate around an axis, and the direction of the torque applied determines the direction in which the object will rotate.
No. They are all different
Retrograde rotation is when a planet rotates in a direction opposite to the majority of planets in our solar system. The planet Venus rotates in retrograde, meaning it spins clockwise on its axis when viewed from above its north pole. This is in contrast to the counterclockwise rotation of most planets, including Earth.
There isn't any relatonship between the orbital distance of the planet, and its rotational speed.
To use the right hand rule for torque, point your right thumb in the direction of the rotational force and curl your fingers in the direction of the rotation. Your fingers will then point in the direction of the torque.
Rotational motion occurs when an object spins or rotates around a fixed axis, like a spinning top. Revolutionary motion occurs when an object moves around another object, like a planet orbiting around a star. Essentially, rotational motion involves spinning in place, while revolutionary motion involves moving around another object in a circular path.