THE FORCES MOVING EARTH'S SURFACE ARE UNDERNEATH EARTH'S SURFACE, IN THE UPPER MANTLE. FWI, these forces are actually huge convection currents in the magma buried under Earth's crust.
This is because there is absolutely no trees on other planets.Mean while the trees are the propagators of oxygen on earth.hence the absence of oxygen on other planets.
(simplified) Gravitational force of attraction is balanced by centripital force due to earths velocity. (G*m1*m2) / r2 = m2 * (v2 / r) m1 = sun mass m2 = earth mass r = earth - sun distance v = earths orbital velocity G = newtons gravitational constant
because gravity and inertia are kinda of playing a game of tug a war but both sides are equal so they do not move
SOLAR SYSTEM: Sun - Mercury - Venus - Earth - Mars - Jupiter - Saturn, Uranus... and so on
they are important because earth is a terrestirial planet, if there was no earth, we willnot be here.
because the planets' gravity pull them so that they do not go away and the moons revolve around them with a constant speed so they stay in their orbit
Stationary is used as an adjective, because it describes a noun. The planets are not stationary.
You can just not very detailed you might mistake them for stars because with a naked eye it looks like a star
A planets gravity is caused by the distorting effect its mass has on the fabric of spacetime.
The constant acceleration due to gravity on EARTH is -9.81 m/s^2. This constant does not apply to objects on other planets because the mass of another planet might not be the same as Earth's mass. Because acceleration due to gravity is constant, this will be the acceleration due to gravity no matter the position of the object on Earth.
The 'sentence' is not a question, therefore there is no answer.
I hesitate to admit that I was raised on one of the inner planets. The inner planets are not gaseous, like the outer planets.
they are stars, planets , somtimes super novas
because the gravatational pull from the sun and other planets keep the planets going in a circler motion and not bumping into each other.Answerbecause the gravatational pull from the sun and other planets keep the planets going in a circler motion and not bumping into each other. the planets each have defined Elliptical, not circular, orbits that remain constant because of gravitational pull of the sun and from each other. Pluto does have such an elliptical orbit that for a time it was closer than Neptune, but they will never collide with their current paths.
no
The inner planets are hotter because they are the closest to the sun the outer planets are the coldest because they are the farthest planets from the sun
These planets are very cold gas giant planets.