The gravitational field of Earth - or any other object for that matter - gets weaker and weaker at larger distances, but never entirely drops to zero.
Because there is no range limit on the gravitational force, the gravitational force of the earth is only zero in the exact centre of the earth, where it cancels itself out. Realistically, the force is so small outside the immediate vicinity of earth, that it may as well be zero.
The bending of light around a large distribution of matter, such as a cluster of galaxies is known as gravitational lensing. Gravitational lensing occurs due to the curving of space-time caused by a massive gravitational field caused by either by a large distribution of matter, such as a galaxy cluster or a black hole. This curving of space-time causes light rays passing through to bend around the gravitational center. A very large amount of matter is needed in order for the lensing effect to occur, typically in the range of a hundred to a thousand galaxies. The bending caused by a single star would be negligible.
The Troposphere is a layer of the first layer of the atmosphere. It is about right above the clouds.
This depends on what you are measuring the temperature of. Clouds tend to reduce the amount of radiation from the sun that reaches the Earths surface, thus feeling cooler to us when we are outside.
All objects within the universe attract all other objects through gravity. as distance increases this attraction lessens to an insignificant amount, however the force is still there. therefore the Earth's gravitational field's range is limitless.
All objects within the universe attract all other objects through gravity. as distance increases this attraction lessens to an insignificant amount, however the force is still there. therefore the Earth's gravitational field's range is limitless.
All objects within the universe attract all other objects through gravity. as distance increases this attraction lessens to an insignificant amount, however the force is still there. therefore the Earth's gravitational field's range is limitless.
All objects within the universe attract all other objects through gravity. as distance increases this attraction lessens to an insignificant amount, however the force is still there. therefore the Earth's gravitational field's range is limitless.
Abnormally low tidal range. (Neap tide)
depends on the properties of the surrounding and also on the geometrical characteristics of the object theoretically with no surrounding media infinite velocity can be achieved. keep in mind that falling is generally associated with presence of gravitational field ,so height of fall has to be considered as within range of dominant gravitational field.
can be up to +60 to -50 can be up to +60 to -50
All objects within the universe attract all other objects through gravity. as distance increases this attraction lessens to an insignificant amount, however the force is still there. therefore the Earth's gravitational field's range is limitless.
tidal range is the distance of the high tide and low tide.
Between 50 and 100 km
Saturn stay in orbit because o the sun's gravitational effect. You may ask how, because the sun is enormous and the gravitational power is very large. Also it is in the gravitational range of the sun.
The range depends on the domain. If the domain is the complex field, the range is also the whole of the complex field. If the domain is x = 0 then the range is 4.
Over time, they form a mountain range