Unlike Earth, the moon has no geologic activity, not atmosphere, and no water to erode, bury, or otherwise destroy craters. Except for newer impact craters, the moon's surface has changed relatively little since soon after its formation while none of Earth's original surface is still intact.
The craters on the moon are clearly visible from Earth because of their size and contrast with the surrounding lunar surface. The sunlight casts shadows in and around the craters, enhancing their visibility. Additionally, the lack of atmosphere on the moon means there is no atmospheric distortion to interfere with our view.
No. Most of the impact craters that have formed on Earth have been destroyed and buried by geologic processes, processes that the moon lacks. While some recent impact craters on Earth remain visible on the surface, they are too small to be seen from the moon.
The moon is hit by many more meteorites than Earth because it has no significant atmosphere to burn them up in. Also as the earths surface is continually changing, visible craters may be filled in, smoothed over or covered up.
The Moon is a more bleach environment and the Earth has Plant Life, Water, buildings, and that kind of thing. So craters on the Moon are seen better because it is more distinctive, the Moon is basically rock, dust, and more rock.
The surface of the Earth has been reworked over geological time and this has erased evidence for craters that have existed on the Earth. However all the inner planets and moons have been subject to the same rate of impactors and as Earth is larger, it is therefore likely that Earth has in fact received more impactors (and therefore had more total craters) than the Moon or Mercury. There are more craters now visible on the Moon and Mercury, but there were likely many more on the Earth over the same astronomical time. But craters on Earth have become less visible due to erosion and geologic activity - these processes are much more active on Earth than on the Moon or Mercury, which have less tectonic activity, no real atmosphere, and no liquid water.
There is no significant amount of erosion on the Moon.
there are more craters on the moon then on earth
Vitello is one of the craters that are visible on planet earth's moon. It is circular and situated at the Southern hemisphere of the moon.
The craters on the moon are clearly visible from Earth because of their size and contrast with the surrounding lunar surface. The sunlight casts shadows in and around the craters, enhancing their visibility. Additionally, the lack of atmosphere on the moon means there is no atmospheric distortion to interfere with our view.
No. Most of the impact craters that have formed on Earth have been destroyed and buried by geologic processes, processes that the moon lacks. While some recent impact craters on Earth remain visible on the surface, they are too small to be seen from the moon.
The moon is hit by many more meteorites than Earth because it has no significant atmosphere to burn them up in. Also as the earths surface is continually changing, visible craters may be filled in, smoothed over or covered up.
The moon has no atmosphere and hence no weather. Weather causes erosion. Living things are another cause of erosion that happens on Earth and not on the moon. The Earth is also more tectonically active. Continental drift happens on Earth, but doesn't happen on the moon. And earthquakes and volcanoes resulting from plate tectonics also can obliterate impact craters. And even the fact that the moon has a lower gravity than the Earth helps to preserve its craters; the walls of the craters weigh less and are therefore less likely to collapse.The earth has an atmosphere and the moon does not. Very little changes on the moon but on earth the weather changes the landscape and overgrowth covers up otherwise more obvious patterns.
The moon has more visible craters on its surface compared to Earth because it lacks an atmosphere to protect it from impacting objects. Earth's atmosphere burns up most small asteroids and meteoroids before they can reach the surface, resulting in fewer visible impact craters. Additionally, the moon's lack of geological activity means that its craters remain preserved over time.
The Moon is a more bleach environment and the Earth has Plant Life, Water, buildings, and that kind of thing. So craters on the Moon are seen better because it is more distinctive, the Moon is basically rock, dust, and more rock.
Earth does have impact craters, but it has much few than the moon or Mercury and many of them are not readily visible. The main reason is that Earth has many active geologic processes that renew and change its surface, burying and destroying impact craters. If an impact crater on Earth is clearly visible then it probably formed quite recently in geologic history. Many of the impact craters on the moon and Mercury are billions of years old, dating to when the solar system was young and large asteroid impacts were far more common than they are now. Very little of Earth's crust from that time remains intact. By contrast craters on Earth that are tens of millions of years old are not readily visible.
The surface of the Earth has been reworked over geological time and this has erased evidence for craters that have existed on the Earth. However all the inner planets and moons have been subject to the same rate of impactors and as Earth is larger, it is therefore likely that Earth has in fact received more impactors (and therefore had more total craters) than the Moon or Mercury. There are more craters now visible on the Moon and Mercury, but there were likely many more on the Earth over the same astronomical time. But craters on Earth have become less visible due to erosion and geologic activity - these processes are much more active on Earth than on the Moon or Mercury, which have less tectonic activity, no real atmosphere, and no liquid water.
Earth is geologically active and has wind and water to erode craters. The moon is geologically dead and has no atmosphere and thus no erosion. There is nothing on the moon to destroy impact craters.