# Can asteroids fall on earth and hit the surface at 90 degree angle?

I always Saw in movies ,cartoons every where that asteroids hit the earth at an angle
(not 90 degree).


But Why ?

We are living in 3-dimensional world(probably more....) .So is there an every chance that
an asteroid on one day would slam into earth at 90 degrees or is it happening at times


Or Is there any physics phenomenon that would prevent this from happening ?

• I would guess that there is nothing preventing asteroids to hit Earth at an 90° angle, but all other angles might have similar probabilities. So the probability of an asteroid Earth at roughly 90°±1° would be small compared to the probability of all other angles. Jan 10 '15 at 3:42

There is nothing that prevents the asteroid coming in at 90 degrees, but it is very improbable. To the extent that the asteroid velocity is large enough that the Earth's gravity doesn't change it, there is little solid angle around 90 degrees altitude. It is like a Rayleigh distribution where there is little area near the origin. To the extent that Earth's gravity changes the asteroid velocity, angular momentum is conserved and you need it to be (close to) zero to come in at 90 degrees.

Asteroids and the Earth are both traveling in orbits around the Sun.

The Asteroids that cross the Earth's path are in highly eliptical orbits, while the Earth is in a near circular orbit.

If you draw the two orbits on a piece of paper, they intersect at two points, but notice that the two orbits are not perpendicular to one another, and the two points of intersections are also not perpendicular to one another.

Also the speeds of the Earth and the Asteroids are not the same, so the colission if and or when it occurs will be very energetic. Energy = 1/2 Mass x Velocity Squared.

The probability that the Earth, and the Asteroid will be exactly on the same plane of the ecliptic is very very small, and the probability that it will collide exactly at 90 degrees, while being exactly on the same plane of the ecliptic is vanishingly small.