Yes, light travels through a "one way mirror" but only a small part of the light, most of the light is reflected. In fact light will travel both ways through a "one way mirror"!
What makes a "one way mirror" appear to act one way is if the room on one side is brightly lit and the room on the other side is dimly lit, in the brightly lit room the reflected light from the brightly lit room swamps out the small amount of transmitted light from the dimly lit room and the mirror appears to be an ordinary mirror, but in the dimly lit room the transmitted light from the brightly lit room swamps out the small amount of reflected light from the dimly lit room and the mirror appears to be a window.
1 person looks through 1 side at another person while the other person has no idea they are being watched
No, the mirror being opaque the light is reflected.
reflection is when light its something like a mirror and refraction is light going through something solid that is not like a mirror when light falls on a surface and bounces back, it is reflection and when light is absorbed by the surface or passes through the surface but does not bounces back, it is refraction.
There's no aberration with the main MIRROR of the telescope, because light doesn't go through the mirror. A reflecting telescope will have SOME chromatic aberration, because every reflecting telescope has at least one refracting lens; the eyepiece. Light goes THROUGH that lens, and light passing through the glass lens will generate some chromatic aberration.
It is called a Cassegrain. The small convex subreflector is a hyperboloid with one focus at the focus of the main mirror, and the other focus just behind the main mirror where the eyepiece is.
The mirror in a telescope is a concave mirror. That shape redirects all the light coming from a distant object that hits the mirror into a focusing lens. The mirror may be as small as several inches or many feet in diameter and it concentrates the light so it can be focused by a small eyepiece that may be only a fraction of an inch in diameter. The mirror serves the same purpose as a large lens in a refractive telescope. It takes a large cross section of light and focuses it into the eyepiece of the telescope but it does it by reflection rather than refraction. The reflective mirror is preferred over a lens for several reasons. The light reflected by a good quality silvered mirror loses very little of its intensity. Light passing through a lens loses intensity each time it passes through a glass surface and it must pass through 2 surfaces of a lens. The mirror bends the light one time and a lens bends it twice. The more times you bend light, the more chance you have to introduce distortion because of imperfections of the surface. If the glass of a lens is not ultra pure and without imperfection, the light is further distorted. The quality of glass in a mirror does not affect the light because the light does not pass through the mirror because the light is reflected off the first surface. When very large telescopes are involved, a refraction lens would weigh many times what the reflective mirror weighs.
Photons do not travel through time. This is due to the fact that the faster you travel through space, the slower you travel through time. In other words, if an object is standing still, it is traveling at the speed of light through time, and since a photon travels at the speed of light through space, it is not traveling through time. -- Asker here, I hope no one minds me editing in to expand on the question/answer given. Surely the answer must be more complex. If a photon does not travel through time, then that could potentially violate/invalidate causality.
Light can travel through undistorted
The reflection of light from surface of a mirror makes it shining. When the light passes through glass, it does not shine. When one side of this glass is covered by a substance that does not allow light to pass through, the light gets reflected and it shines.
All electromagnetic waves travel through space at the "speed of light". Light is one form of electromagnetic waves.
reflection is when light its something like a mirror and refraction is light going through something solid that is not like a mirror when light falls on a surface and bounces back, it is reflection and when light is absorbed by the surface or passes through the surface but does not bounces back, it is refraction.
A mirror interacts with light by exhibiting specular reflection. This means that a mirror will form an image, which is why one can see herself in a mirror.
A mirror that you can see through from one side.
yes, electomagnetic
Great question! A mirror can be called as opaque. Because as a whole, it does not allow light to pass through it..Defn of opaque objects: Impervious to the rays of light.A mirror is actually a thin glass slab with its one side coated with silver. So when the rays fall on the mirror, it first falls on the upper face of the glass slab, gets refracted, travels through it, gets reflected by silver, travels back through glass slab, gets refracted at the upper glass-air interface and comes out.So here light actually "passes through" one of the parts of mirror- the glass slab(the other one being the silver coating).But when you say mirror, you consider the object as a whole and not by parts... AND as a whole it does not allow light to pass through it. Therefore, you can very well call it opaque!!
It is called a Cassegrain. The small convex subreflector is a hyperboloid with one focus at the focus of the main mirror, and the other focus just behind the main mirror where the eyepiece is.
There's no aberration with the main MIRROR of the telescope, because light doesn't go through the mirror. A reflecting telescope will have SOME chromatic aberration, because every reflecting telescope has at least one refracting lens; the eyepiece. Light goes THROUGH that lens, and light passing through the glass lens will generate some chromatic aberration.
The benefits of bringing a travel mirror on a trip is especially for women always having a mirror to check one's makeup, hair or general appearance in that very moment.
A CO2 laser works by running electricity through gas to produce light. The beam of light produced is emitted through a transparent mirror. It is one of the most powerful lasers in production.