material - that's how a microscope, lighthouse and spectacles work!

And you might even know that light bends because it travels slower through glass or water than

through air - but why does light slow down? And how does it speed up again when it comes

out on the other side? There's nothing there to give it a push!

Well, if you think light is a wave, it's easy to explain - electromagnetic waves simply

travel slower through glass than through air. So the wave crests are closer to each other,

but the light still oscillates the same number of times per second - it stays the same color.

When the wave hits the air again, its color stays the same, while its crests spread out

and it returns to light speed. The simplified explanation is that the energy of a wave is

determined by its frequency, or color, which doesn't change! So it doesn't need a boost

to speed up at the other side.

But wait, you say! I thought light traveled at the same speed in every reference frame

- you still haven't explained how it can slow down! Well, now let's think about light as

a particle. When light goes through glass, it gets knocked around and bumps into all

sorts of molecules and electrons. So whenever it's traveling, it's traveling at the speed

of light - but it's busy interacting with and scattering off lots of stuff along the

way, and it doesn't necessarily take the shortest path through the glass.

It's like the President of the United States trying to cross a room – if the room is

empty, he can walk across directly. But if the room is full of people all of whom want

to shake the President's hand, even though he walks from person to person at full "Presidential-speed",

he'll get slowed down along the way. As soon as he reaches the far side of the room, though,

he's free to resume his pace.

Full speed ahead, Mr. President!