What if you threw a baseball at nearly light speed? [video]

He published a correction in the hardcover WhatIf that the "fusion zone" at the front of the baseball would not actually form, as the collisions are too fast for fusion to take place. Instead, the protons would "ghost" through each other, resulting in some awesome energies and exotic radiation. Unfortunately, I can't find the underlying science behind this. Anyone know where that could be found, assuming it's still correct?

Dang, and seemed like such a neat idea, too.<p>The good news is that not only can I throw a ball at nearly the speed of light, I can run away from it even faster. And the guy at bat is on the other team. But I would rather not fry my teammates.

Wow. I just had a conversation about this with my son. He wanted to play a super hero run around the world 3 times in a second. Being a no-fun-dad I tried to explain why this is a bad idea. &quot;The atmosphere will be like a stone wall. When you collide with it all kinds of exciting things will happen&quot;.<p>I will have to show him this.

The first ever What If, that made it a hit (in more than a sense). 0.9c is not fast enough to make a really big difference in mass or time for the ball, but its speed alone is bad news in something like a dense enough atmosphere.

That escalated…quickly

0.9c is great but would there be a big difference at say 0.9999c?