An orbit is where something spins and goes in a circle, a spin is just a spin....
27.32 days
Of what? orbit: Mercury spin: Jupiter wind: Neptune
The greatest difference in seasons will occur on a planet that has a circular orbit. This is because winds are created this way.
The Earth orbits in the plane of the ecliptic in an ellipsoidal orbit that is nearly circular. Comets orbits are highly elliptical and mostly out of the plane of the ecliptic.
It would spin out of earths orbit. And most likely hit a planet, star, comet, or keep on going.
orbit can accomodate more than 2 electrons while orbital can accomodate 2 electrons with opposite spin while
Yes, Orbit Helios does spin. I recommend him, because he spins very well :)
The direction of the Earth's spin and the direction of the Moon's orbit is the same - counterclockwise
A year and a day.
an orbit
If by spin you mean "rotate daily" then yes. But you could refer to our "orbit" as a spin around the sun. But if you want to refer to "spin" as any oscillatory/periodic motion of the earth, then we spin around our central axis, we orbit around the sun, we precess the rotational axis around a precession axis, our obliquity oscillates periodically and our eccentricity oscillates around the foci of our elliptic orbit which is near the center of the sun. These characteristics of our orbit are known as the Milankovic cycles.
Spin.
All planets lie in the plane of their orbit, but most spin on an that is nearly (many have tilted axes of spin) perpendicular to that plane. The one exception is the planet Uranus which has its axis of spin lying very close to its orbital plane.
Mercury is locked into a 3/2 spin-orbit resonance where it rotates three times on its axis for every two orbits around the sun
They orbit as stars would in any other halo. It is gravity that causes everything to orbit and "spin around" Stars can also orbit around other stars called a binary orbit.
No they spin within the nucleus along with neutrons.
27.32 days