Than the equator of what?
The sun's equator rotates faster than it's poles (about 25 [Earth] days vrs about 40 near the poles).
About 27 days Since the sun is not solid, it rotates at different rates at different latitudes. One rotation takes 36 days at the poles but only 25 days at the equator.
A point at the Sun's equator takes 25 days to rotate, while points 15° from the Sun's north or south poles take about 34.3 days to complete one spin. This is known as differential rotation and probably is an effect of the gaseous makeup of the sun's outer layers. The Sun's spin, as measured at its equator, is about 7189 km/hr.Because the Earth is orbiting the Sun, from Earth the rotation appears to take about 28 days, which is the average time for sunspots to make a complete spin.Since the Sun is not solid, there's no reason that all of it has to rotate all in onepiece, and the fact is that it doesn't. When we look at the Sun's surface, we seethe equator rotating fastest, and the rotation slowing down as we look fartherfrom the equator and closer to the poles.As the Sun consists of a plasma and is not solid, it rotates faster at its equator than at its poles.This behavior is known as differential rotation, and is caused by convection in the Sun and the movement of mass, due to steep temperature gradients from the core outwards. This mass carries a portion of the Sun's counter-clockwise angular momentum, as viewed from the ecliptic north pole, thus redistributing the angular velocity.The period of this actual rotation is approximately 25.6 days at the equator and 33.5 days at the poles. However, due to our constantly changing vantage point from the Earth as it orbits the Sun, the apparent rotation of the star at its equator is about 28 days.
No. The length of a planet's year is determined by its distance from its sun. In our solar system all of the Jovian planets orbit farther from the sun than the terrestrial ones and therefore have longer years.
Yes. The Sun rotates every 25.5 days at the equator. Because the Sun is not solid, various regions rotate at different speeds. The polar regions rotate every 36 days, and in-between latitudes spin at in-between speeds.
It takes about 27 days at the equator and 31 days at the poles (top north and south).The Sun rotates unevenly. It rotates faster at the equator and slower at its poles because it is made up of gases that have no definite volume . It rotates once every 27 days at the equator, but only once in 31 days at the poles. So you can think of the sun as spiraling as it rotates. Saturn and Jupiter also rotate unevenly because they too are mostly made up of various gases.My basis information is from an article written by Padi Boyd.
About 27 days Since the sun is not solid, it rotates at different rates at different latitudes. One rotation takes 36 days at the poles but only 25 days at the equator.
The poles of Jupiter rotate faster the the equator because of a bulge there caused by gases (which aren't as solidy held together as rocky planets). Since the Great Red Spot is closer to the poles, it spins slower than the equator.
It is affected by differential rotation. The Sun is not solid and it rotates faster at its equator than at its poles.
Yes and No.All of the Sun rotates (in the same direction) but because the Sun is not a solid body different parts of it can rotate faster than others; Solar rotation varies with latitude. The rate of rotation is fastest at the equator (latitude0 °) and is 24.47 days. This decreases as latitude increases and at the poles the solar rotation period is almost 38 days.
Because the Sun is not solid, different parts rotate at different speeds. Near the equator of the Sun, it rotates once in about 26 days, while the polar regions rotate in about 33 days.
The sun appears to make a complete trip around the equator every 24 hours.
The sun appears to make a complete trip around the equator every 24 hours.
It takes the Earth exactly 365 days to fully rotate the sun. Witch is the same amount as a whole year.
If by "the sun's revolution" you mean it's rotational period (how long it takes the sun to spin around once), you can safely assume about 25 days. (25.38 to be exact) This is a difficult thing to measure as the sun is completely gas and different sections (from the equator to its poles) rotate at different velocities. However, if you mean how long it takes the sun to rotate around the center of the GALAXY, this is measured to be 2.25 to 2.5 x 108 (250 MILLION YEARS!) The velocity at which the Sun travels around the center of the galaxy has been calculated to be 220,000 meters PER SECOND. So combining these two things we estimate that the Sun journeys over 6 BILLION miles for just one rotation! These are big numbers to think about, but it makes you realize how HUGE our galaxy and space is... and there are billions of more galaxies out there!
A point at the Sun's equator takes 25 days to rotate, while points 15° from the Sun's north or south poles take about 34.3 days to complete one spin. This is known as differential rotation and probably is an effect of the gaseous makeup of the sun's outer layers. The Sun's spin, as measured at its equator, is about 7189 km/hr.Because the Earth is orbiting the Sun, from Earth the rotation appears to take about 28 days, which is the average time for sunspots to make a complete spin.Since the Sun is not solid, there's no reason that all of it has to rotate all in onepiece, and the fact is that it doesn't. When we look at the Sun's surface, we seethe equator rotating fastest, and the rotation slowing down as we look fartherfrom the equator and closer to the poles.As the Sun consists of a plasma and is not solid, it rotates faster at its equator than at its poles.This behavior is known as differential rotation, and is caused by convection in the Sun and the movement of mass, due to steep temperature gradients from the core outwards. This mass carries a portion of the Sun's counter-clockwise angular momentum, as viewed from the ecliptic north pole, thus redistributing the angular velocity.The period of this actual rotation is approximately 25.6 days at the equator and 33.5 days at the poles. However, due to our constantly changing vantage point from the Earth as it orbits the Sun, the apparent rotation of the star at its equator is about 28 days.
It takes 25 days to rotate at the equator and 36 days to rotate at the poles.
The sun rotates counter-clockwise. It doesn't move as a solid mass, however. It rotates faster at the equator and slower at the poles. It takes 27 days to rotate at the equator and 31 days to rotate at the poles.