It's simple, gravity.It holds everthing together.
Yes, a gallon of water has the same mass in space as it does on Earth. However, because weight is a force dependent on gravity, the weight of the water would be different in space compared to on Earth due to the difference in gravitational pull.
The work done by the Earth on the space station is zero since the force of gravity is perpendicular to the motion of the space station. This means that there is no displacement in the direction of the force, and thus no work is done.
Yes, space clouds, also known as nebulae, are vast regions of dust and gas in outer space that can be seen from Earth. They come in different shapes and sizes and play a crucial role in the formation of stars and other celestial objects.
In microgravity conditions in space, water forms into spherical shapes due to surface tension and does not behave the same way as on Earth. It does not "float" in the traditional sense but rather sticks together in floating droplets.
The Earth appears blue from space due to the way that sunlight is scattered and absorbed by the Earth's atmosphere and surface. The blue color comes from the scattering of sunlight by air molecules, and the reflection of sunlight by the oceans and other bodies of water.
The force of gravity prevents all the water from pooling to the bottom of the earth. Gravity pulls everything towards the center of the earth, including water, resulting in a balanced distribution of water around the planet. Additionally, the shape of the earth and its rotation create forces that contribute to the distribution of water across its surface.
The blueness you see on the Earth from space is the oceanic water.
yes earth is much different than space because space has no air or water.
Water on earth is never lost in space; vapors are condensed and transformed in rains and snow.
Because there is no air, water or living organisms to eat in space but there is on earth.
the earth is liveable and has water on it.The moon is not a planet and humans could not live on it because it doesnt have any water on it.
the earth is not round it is pair shaped. it takes earth 23 hours 56minutes and 4 seconds to get round. if the earth was any closer to the sun all water would dry up and if we where any further all the water would freeze.
It actually doesnt much. The main contributing factor to the movement of the water and tides is the moon. Every day= 1 revolution around earth for the moon, so the tides go with the moon. So actaully, the rotation of the earth really doesnt effect it much.
The force of gravity pulls objects towards the center of the Earth, keeping the water (and everything else) in place. The Earth's gravity is strong enough to hold down the water even when the Earth is round. The curvature of the Earth's surface also helps to keep the water contained within its oceans, lakes, and rivers.
the earth the clouds and the water!
The idea that all the water on Earth would fall off the bottom of a round planet is a common misconception. Gravity, which is the force that pulls objects toward each other, is what keeps the water on the surface of the Earth. Gravity is not a force that is only exerted downwards, but rather, it is a force that is exerted towards the center of the planet. This means that all objects, including water, are pulled towards the center of the Earth and are held in place. Furthermore, the Earth's atmosphere also helps to keep water on the planet's surface. The atmosphere creates pressure that helps to keep water in bodies of water such as oceans, lakes, and rivers. Without the atmosphere, the water on the Earth's surface would be much more likely to evaporate or be lost to space. Therefore, the idea that a round Earth is false because water would fall off the bottom is a misunderstanding of how gravity works and how the Earth's atmosphere helps to keep water in place.
We would be in for a world of hurt if the water escaped into outer space. Everyone and everything on Earth would die without water. Lucky for us, the Earth is a mostly self-contained biome.