They’re not just glass. They’re glass with a thin layer of silver or aluminum behind it. Glass alone reflects only a small fraction of light, but those metals reflect a very large portion so you get a very clear relfection if the surface is smooth enough 

Traditional mirrors use a layer of silver applied to the glass. This produces a very shiny layer that reflects light extremely well.

Other materials can be polished to be reflective, some are just naturally reflective.

Glass makes mirrors *less* reflective. It just makes them much more durable. The main reflective part is the metal behind the glass. Metal reflects because the electrons in it are free to move, which means they are free to move in response to passing light. Since they move unimpeded, they absorb the light and reemit it in the reflected direction.

Specialized mirrors may not even have glass, but this makes them quite fragile. The term for these is “first surface reflector”.

Mirrors are very smooth, so when light hits it and bounces off, all the light rays bounce off together … this is why we can see reflections.

Concrete is an example of a not so soothe surface. When light hits it the rays scatter in all different directions and can’t recreate an image.

Kinda like simultaneously bouncing like 20 of those really bouncy balls on a flat surface versus an angled one. If flat, the balls will bounce in a group…. reflection. If angled, they go everywhere…. no reflection.

To answer your second question, all materials are technically reflective. But most materials reflect light diffusely, meaning that light rays get scattered in random directions. This makes the reflecting object visible to the eye, but that’s all it does.

The reason for diffuse reflection is that most objects are made of a bunch of smaller things, like the tiny crystallites that make up rocks, or the fibers that make up organic matter. When light hits one of these objects, the light rays get bounced around inside of those miniature building blocks like pinballs, until they finally find a path back out of the surface and back to your eye. And by the time this happens, the exact direction any given light ray came from no longer matters.

Mirrors, however, are made of glass and metal, which are different. Glass is not made of a bunch of smaller objects. It’s basically just a random cluster of atoms, with no structure to it whatsoever. So any light rays that don’t bounce right off the surface just pass straight through. And metals have a very precise, uniform crystal structure, with atoms bound so tightly together in such a perfect arrangement that light rays simply have nowhere to bounce to but off the surface.

So as long as you can get the surfaces smooth enough that there are no bumps or valleys to bounce around, the light rays will all keep moving in the same direction, even when they bounce off. And because the light rays are all moving in the same direction relative to each other as they were when they hit the mirror, we see almost the exact same thing in the mirror that we would see if we were looking at the source of those light rays. This is called specular reflection.

Fun fact the reason “vampires have no reflection” is because of the silver nitrate they used to use in old mirrors

Modern mirrors however rarely use these

So you know… Be careful and always order food with garlic on a first date