its a fifty fifty chance we just dont know It depends on how fast the asteroid is moving and the size of the asteroid. Then you have to consider the size of the planet (diameter, etc.), and its orbital speed, etc.
Jupiter :P
99942 Apophis is an asteroid where initial observations indicated a small probability (up to 2.7%) that it would strike the Earth in 2029.Later observations concluded that the asteroid would miss the Earth.The chances are now set at a one in 3 million that it will hit Earth.
There is no "impact asteroid". An asteroid impact however is when an asteroid hits a planet or moon.
There is no definitive evidence of an asteroid hitting Uranus. However, the planet's moons may have been impacted by asteroids in the past, as seen by the presence of impact craters on their surfaces.
A planet did not hit Jupiter, a hurricane started which is called the Great Red Spot.
Jupiter :P
It was not an asteroid. It was a planet. The name starts with an 'M'.
Zero.
Earth's chance: 15% Moons chance: 50%
99942 Apophis is an asteroid where initial observations indicated a small probability (up to 2.7%) that it would strike the Earth in 2029.Later observations concluded that the asteroid would miss the Earth.The chances are now set at a one in 3 million that it will hit Earth.
There is no "impact asteroid". An asteroid impact however is when an asteroid hits a planet or moon.
An impact crater. The size depends on the mass and speed of the object and where it strikes
Yes. An asteroid cans strike anywhere on Earth. The chances of any given location being hit are extremely low.
There is no definitive evidence of an asteroid hitting Uranus. However, the planet's moons may have been impacted by asteroids in the past, as seen by the presence of impact craters on their surfaces.
A planet did not hit Jupiter, a hurricane started which is called the Great Red Spot.
a large ice asteroid came form space and hit earth malt with volcano
A black hole would eventually swallow up the entire Earth. An asteroid would provoke great catastrophes - depending, of course, on the mass of the asteroid.