Whenever the Moon's center is farther from the Sun than the Earth's center is,
we see more than half of the moon illuminated. That happens roughly from
one week after the New Moon until one week before the next New Moon.
we will die ,
yours scincerely george
EDIT: No!, we will have no tides and plants would grow when we have 12 hours of sunlight and 12 of moon plants will grow 50-100% faster and bigger as they do in Alaska. But smaller than this scenario. Essentially Sea Life wouold die since the tide bring in oxygen and circulates warmth and coldness. This is if the moon is destroyed and the worst possible outcome would be death the SEA LIFE. and right off the top of my mind that is about all that will die.
mass should not leave the planet or moon because gravity is holding it in
Force can cause mass to move, it does not move in itself.
Once weathering weakens and breaks rock apart, mass movement moves the debris downslope. There a stream usually carries it away. Stream valleys are the most common of Earth's landforms.
I. The cold air mass is pushed underneath the warm air mass.
The center of mass of the Earth-Moon system.
science is the life of earth
The mass remains the same.
Mass stays the same while weight reduces because the gravity is weaker at distance.
When any object with mass moves, no matter at what speed, its mass increases. The faster it moves, the faster its mass increases. And the closer to the speed of light it moves, the closer to infinity its mass grows.
winter happens when the earth shifts on its axis. the shift moves certain of earth's land mass farther away from the sun. the added distance from the sun means less heat from the sun. less heat means merry x-mas, as in, BOY! do you see the size of those flakes?
weight is derived from gravity's effect upon mass. so your weight would decrease, however your mass would stay the same.
It cools and condenses
Force can cause mass to move, it does not move in itself.
No, they continue having mass.
The earth's center of gravity is the center of the earth, or the center of the mass with the mass being the earth. The earth spins as it moves through space on account of sun's gravitational forces and because there is nothing in space to get in the way or stop the earth from rotating.
The Earth has a greater mass than you do. It certainly moves towards you, but much less than you do. This can be explained by Conservation of Momentum, or equivalently, by Newton's Second Laws and Newton's Third Law. (By the Second Law, Earth's force on you is the same as your force on the Earth. By the Third Law, the effect on a larger mass, of the same force, is less.) Technically, as you jump up, the Earth is pushed down; as you come down, the Earth moves up (and meets you). But you weight little and the Earth weighs much more -- so don't expect to see any movement. Besides the Earth is less of a whole than you are. For instance, in a canoe, you jump out to the right. The canoe (and some water -- read "and some of the Earth") move to the left.
Yes. The mass is basically independent of any attracting objects, such as Earth.
Once weathering weakens and breaks rock apart, mass movement moves the debris downslope. There a stream usually carries it away. Stream valleys are the most common of Earth's landforms.