If u're in a sphere made of mirror texture.. what do u see inside it how does ure reflection look?

Everything you see comes from light that enters your eyes. The study of light is called OPTICS it is part of the science named PHYSICS.





What your reflection looks like depends on a lot of things. How large is the sphere? Where are you standing in the sphere? If you think about it, what you see in the mirror depends on where you stand. You can try this in just a regular flat mirror. Stand in different spots, and look at what you see.





I have given you a few links showing diagrams of how light rays are reflected in a spherical mirror. If you were inside, you would be seeing a concave surface.





Escher drew pictures of what he would look like in a spherical mirror, from the outside. You can do this yourself, by looking in the gardening area for a mirror globe, or a glass Christmas ball.





A concave reflecting surface can be found in a magnifying mirror, or in a spoon or bowl. I have also included a link to purchase spherical mirrors and other optical devices. Finally, I have included a site with some virtual optical experiments.





I hope this helps to answer your question. Have fun!If u're in a sphere made of mirror texture.. what do u see inside it how does ure reflection look?
Round and fat..... ofcourse dear...If u're in a sphere made of mirror texture.. what do u see inside it how does ure reflection look?
You see yourself from every angle...something that is impossible with any other structure besides a sphere.
if its a perfect sphere technically you should only see your own eyes streched out like crazy
Upside down and more distorted the closer you get to it's surface.
like your reflection in a mirror
wow that would be cool, an infinity of images.
Maybe you get a fish eye distortion sort of effect....
I think I would see a magnified image of my nose.
I can tell you it looks messed up.
Firstly, you would be in the dark because the mirror surface would block light from entering the sphere. Overlooking this, the image would depend upon the size of the sphere and the distance from the center to the observation point.