Mirrors Definition and 257 Threads

A mirror is an object that reflects an image. Light that bounces off a mirror will show an image of whatever is in front of it, when focused through the lens of the eye or a camera. Mirrors reverse the direction of the image in an equal yet opposite angle from which the light shines upon it. This allows the viewer to see themselves or objects behind them, or even objects that are at an angle from them but out of their field of view, such as around a corner. Natural mirrors have existed since prehistoric times, such as the surface of water, but people have been manufacturing mirrors out of a variety of materials for thousands of years, like stone, metals, and glass. In modern mirrors, metals like silver or aluminum are often used due to their high reflectivity, applied as a thin coating on glass because of its naturally smooth and very hard surface.
A mirror is a wave reflector. Light consists of waves, and when light waves reflect off the flat surface of a mirror, those waves retain the same degree of curvature and vergence, in an equal yet opposite direction, as the original waves. The light can also be pictured as rays (imaginary lines radiating from the light source, that are always perpendicular to the waves). These rays are reflected at an equal yet opposite angle from which they strike the mirror (incident light). This property, called specular reflection, distinguishes a mirror from objects that diffuse light, breaking up the wave and scattering it in many directions (such as flat-white paint). Thus, a mirror can be any surface in which the texture or roughness of the surface is smaller (smoother) than the wavelength of the waves.
When looking at a mirror, one will see a mirror image or reflected image of objects in the environment, formed by light emitted or scattered by them and reflected by the mirror towards one's eyes. This effect gives the illusion that those objects are behind the mirror, or (sometimes) in front of it. When the surface is not flat, a mirror may behave like a reflecting lens. A plane mirror will yield a real-looking undistorted image, while a curved mirror may distort, magnify, or reduce the image in various ways, while keeping the lines, contrast, sharpness, colors, and other image properties intact.
A mirror is commonly used for inspecting oneself, such as during personal grooming; hence the old-fashioned name looking glass. This use, which dates from prehistory, overlaps with uses in decoration and architecture. Mirrors are also used to view other items that are not directly visible because of obstructions; examples include rear-view mirrors in vehicles, security mirrors in or around buildings, and dentist's mirrors. Mirrors are also used in optical and scientific apparatus such as telescopes, lasers, cameras, periscopes, and industrial machinery.
The terms "mirror" and "reflector" can be used for objects that reflect any other types of waves. An acoustic mirror reflects sound waves. Objects such as walls, ceilings, or natural rock-formations may produce echos, and this tendency often becomes a problem in acoustical engineering when designing houses, auditoriums, or recording studios. Acoustic mirrors may be used for applications such as parabolic microphones, atmospheric studies, sonar, and sea floor mapping. An atomic mirror reflects matter waves, and can be used for atomic interferometry and atomic holography.

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  1. B

    Question about concave mirrors

    I read that concave mirrors are part of a sphere, and concave mirrors can also be expressed in a parabola equation, but a parabola equation is expressed as #4py=x^2# and a circle as #x^2+y^2=R^2#. So the two can't be the same right? Can someone please explain this? Thank you in advance :)
  2. S

    Does a Silvered Plano-Convex Lens Act Like a Concave Mirror?

    If the plane surface of a plano-convex lens in silvered then which of the following statements is true? 1. it acts like a convex mirror 2. it acts like a concave mirror 3. it acts like a concave lens 4. no changemy attempt--- the incident ray on the convex surface of the plano-convex will...
  3. M

    How Is Object Distance Calculated in Mirror and Lens Equations?

    Homework Statement In front of a spherical concave mirror of radius 39cm, you position and object of height 0.6cm somewhere along the principal axis. The resultant image has a height of 0.2cm, How far from the mirror is the object located? What if this were a convex mirror with the same radius...
  4. S

    Image distance of light in parallel mirrors question

    Homework Statement [/B] Two parallel mirrors that face each other are placed along and perpendicular to the x-axis at x = +7.40 m and x = -7.40 m. Assume that a point source of light is placed on the axis at x = +3.30 m. In principle, there will be an infinite number of images generated...
  5. A

    How do i calculate this -- Using numerous parabolic mirrors to focus light

    So for my semester project, I was given something that most scientists think is "impossible". Using numerous parabolic mirrors, i need to focus the reflected light onto a mutual point, and achieve a temperature of about 3000*C. Why 3000? That is when thermal decomposition of H2O occurs. What i...
  6. A

    Reflection laws applied on mirrors

    Hi Forum, Simple question here, but one that has been bugging me. Please look at picture. So, rays from the baseball can go from the lower mirror to the eye. (1 image) Rays from the baseball go from the upper mirror to the eye. (1 image) Rays from the baseball go from the lower mirror to...
  7. A

    Mirror Reflection: Why Does Object Look Smaller?

    If light bounces from a mirror into your eyes it's from 1 object (the mirror) if i were to have 2 objects placed somewhere then why would the one placed further look smaller in the mirror? The light is bouncing of the same object right?(the mirror) thanks for the help and sorry for the bad...
  8. interhacker

    Why don't mirrors invert the image vertically?

    I was looking at the hover text of this xkcd comic. It said: I tried to answer the question myself for a while and arrived at the conclusion that I'm a brain-damaged nitwit. Then it occurred to me that the best course of action would be to ask people with higher intelligence. So, can any of...
  9. naima

    Exploring Reflection Shifts in Beam Splitters

    I read this They do not talk about the metal between glass and air! Reflection occurs between glass (low index) and metal (high index)in the beam splitter. What about phase when metal is thick?
  10. J

    Symbol help - Mirrors & units question

    Symbol help -- Mirrors & units question Calculate to the nearest 0.1000 degree the diffraction angle of the first order image produced by monochromatic light of wavelength 5890.0 A as the light passes through a grating of 5500.0 lines/cm. WHAT DOES THE SYMBOL 'A' MEAN?? My guess was 1^-10...
  11. H

    Light - reflection in two facing mirrors

    Hi, thanks for stopping by.I'm studying for an exam tomorrow, I would really appreciate even just a push in the right direction! Homework Statement A plane mirror and a convex mirror are placed facing each other and 50 cm apart. A candle is placed on the principal axis 20 cm from the plane...
  12. 4

    Angular magnification of flat and concave mirrors

    Homework Statement (a) I hold a flat mirror 22.4 cm in front of my face. There is a freckle on my face 1 mm in diameter. Find the angular size of the freckle on the image of my face as viewed by my eye. (b) Repeat for a concave mirror which has a focal length of 39 cm. (c) What is the...
  13. A

    Prove involving parabolic mirrors

    I'm having trouble with the following problem: "Consider the parabolic mirror given by the equation $z=x^2+y^2$. Show that when the rays of light that travel parallel to the $z$ axis pass through the same point when reflected." I'm familiar with the law of reflection but I'm stuck...
  14. J

    Conceptual problem invoving mirrors

    Homework Statement Ok so had a lab where we used spherical mirrors and got the focal length and object distance etc by just using a meter stick mirror and light. Pretty common basic physics experiment(I think). But I was asked How to devise a method for using the lens to calculate the...
  15. S

    How Do I Solve Laser Reflection Using Vectors?

    Question link: http://gyazo.com/4d52ab2521e5b222241718ea1b7ccb08.png I have to solve this using vectors, not geometry My professor said the equation that's required is -v* = 2 proj v onto n - v and v* is reflected vector, so I don't really understand how to do this First off I don't...
  16. A

    Solve for Focal Length of Convex Mirror: 1/50 + 1/20 = 1/-f

    Homework Statement An object is placed 50 cm in front of a convex mirror and its image is found to be 20 cm behind the mirror. What is the focal length of the mirror? Homework Equations 1/d0 + 1/di = 1/f The Attempt at a Solution 1/50 + 1/20 = 1/-f 70/1000 = 1/-f f = 14.28...
  17. F

    Clarifying the Relationship between Convex Mirrors and Image Distance

    Hello, I have a quick question of clarification on convex mirrors. If I have a single convex mirror, is it ever possible that image distance is greater than focal length? Let's assume we are dealing with a real object. Thanks
  18. W

    The construction of half silvered mirrors

    Hello guys, I have a question about the construction of half silvered mirrors. I read that they are created using aluminum vapor (so some sort of vapor deposition process?). And I read that the thickness of the aluminum coating can affect the reflectance and transmittance properties...
  19. B

    Designing a Current Mirror with LEDs - Help Needed

    Hi, I am working on a design and I am trying to re-work the horrible schematics left by a previous mechanical engineer, I am trying to make a current mirror that will mirror a reference current across 5 LEDs, AFAIK from my little knowledge in Electrical engineering (I am a Mechanical Engineer)...
  20. S

    Question about reflectivity of mirrors vs transitivity of lenses

    I could not find an optics forum, so I'm posting this here. I'm trying to learn about the optics of imperfect real mirrors and prisms. I dug out my old physics book, but it just barely touches on this. 1. I read that most aluminum coated telescope mirrors reflect about 90% of the light...
  21. W

    Understanding Virtual Images in Lenses and Mirrors

    1. A stamp collector uses a converging lens with focal length 32 cm to view a stamp 17 cm in front of the lens. Where is the image located? a. in front of the lens (real image) b. behind the lens (virtual image) 2. 1/f = 1/do + 1/di 3. 1/32 = 1/17 + 1/di di = -32.267 cm...
  22. A

    Optimizing Mirror Widths for Periscope Design

    Homework Statement A periscope is made of two good mirrors. Find the ratio of the minimum widths of the mirrors if the distance between them is L and the distance from the lower mirror to the eye of the observer is l.The objects viewed through the periscope are at a great distance from it...
  23. V

    How do mirrors create images despite scattered light?

    Hi! I have two questions: 1) I'm a little confused about image formation. Suppose there's an illuminated object place in front of a mirror. The object has a rough surface causing a diffuse reflection so when lights hits the object, the rays will be scattered all around the room. Now the...
  24. J

    Can Current Mirrors Drive Multiple LEDs Efficiently?

    Hi all, I am trying to build a circuit for driving multiple LEDs under test at a given current, and the LEDs are to be individually tested with multimeter. Now I know I could just run them all in series and they would get the same current, but if one LED breaks, then the whole circuit goes...
  25. A

    Mirrors reflecting images infinitely

    Hi Everyone, This is a physics problem but also an everyday home one I'm trying to resolve. In our bathroom, we have two mirrors on opposite walls (parallel walls)... because of this, they reflect images of the person between them infinitely many times - it's actually quite a bit nauseating...
  26. A

    Optics mirrors problem with rearview of car

    Homework Statement I'm riding my car. My eye is 40cm from the rearview mirror. I want to know if I can see the car behind me. The car behind me is 2.5m large. Can I entirely see the car behind me in his whole wideness? The mirror is 23 cm long. The car is 4 meters behind us. Homework...
  27. R

    Mirrors, Polaroid Films, Light/Wavelength help needed

    :(:(:( Please ease my aching soul by helping me with this... I submitted this assignment online and I don't know the answers yet or however many I got wrong. I chose 45 because I know unpolarized light becomes this after going through a polarizer: That single line is 180º, so I did...
  28. K

    Powered sphere completely surrounded by perfect mirrors

    I humbly ask for people's opinions on the following hypothetical setup: A solid black body sphere in space is supplied by an internal nuclear energy source with a constant power flux to its surface of 459 W/m2. It's surface temperature is accordingly 300K. The power released (to space) balances...
  29. J

    Why do Michelson interferometer usually needs 2 mirrors?

    I've been wondering this for quite some time. Why do a typical set-up of Michelson interferometer usually requires 2 mirrors? Why not one for adjustment? Why not just shine the laser through the beam splitter? Thanks.
  30. S

    Why do mirrors reflect so much light?

    Hello Can someone explain what it is about typical household mirrors (eg. for grooming use) that allows them to reflect so much light (I think they generally reflect about 98% or so?). ie. glass only reflects roughly 4% - so what is the reflective agent in typical mirrors?
  31. T

    Teeth double reflection in mirrors

    Hello, guys! Yesterday I saw my reflection in a mirror and noticed that my teeth had two images on the mirror, and the rest of my face did not. I tried in different mirrors, and the result was the same. At first, I thought it could be the effect of two surfaces of the mirror, and in that case...
  32. R

    Image formation in concave mirrors

    When you look in spoon from a reasonable distance you see an inverted image of yourself in the mirror. How can you see a real image in the mirror when I thought you saw virtual images in a mirror and real images had to be caught on a screen.
  33. R

    Mirror & Image Physics: Speed of Truck Image to Driver

    Homework Statement The rear view mirror of a car is a plane mirror. A driver is reversing his car at the speed of 2 m/s. The driver sees in his rear view mirror the image of a truck parked behind hid car. The speed at which the image of the truck appears to approach the driver will be? The...
  34. N

    Two parallel mirrors are separated by a certain distance

    Homework Statement Two parallel mirrors are separated by a distance of d = 4 meter. A point object is placed at a position a = 0.4 meter from the mirror 1. How deep is the second image of the object in the mirror 1? How deep is the third image of the object in the mirror 1...
  35. R

    Reflection in spherical mirrors

    Hey everyone, I'm reading a chapter on reflection of Light and I had some doubts:- 1 Is a real, erect image possible? What about a virtual, inverted image? 2 How can you see a real image without a screen? Can you see it in the air or something? 3 When you move away from a plane mirror...
  36. S

    Real and virtual images from mirrors

    Homework Statement When we look into a mirror, the image formed in virtual as it cannot be captured on a screen. However, If we shine a torchlight at an angle then the beam of light will reflect and form on a screen. But how are we so different from the torchlight's light? Since we simply...
  37. L

    Is it possible to have perfect white or mirrors?

    Is it possible for a surface that reflects all visible light, and absorbs absolutely none to exist, Or would that violate the second law of thermodynamics?
  38. mnmman

    Concentrated Photovoltaics, Parabolic Mirrors

    The idea of a parabolic mirror to focus light onto a small solar panel popped into my mind the other day. I searched Google and this is about the best thing I found- http://www.greenrhinoenergy.com/solar/technologies/pv_concentration.php and...
  39. E

    Explaining the Mathematical Reasoning of Finding Image in Convex Mirrors

    I am having a problem understanding the mathematical reasoning of finding the description of image in convex mirror... We know the relation, 1/v + 1/u =1/f is true for all mirrors... we can prove this for both concave and convex mirrors... In case of convex mirrors we use the conventional...
  40. U

    Need help with contraconcave mirrors

    need help with contraconcave mirrors... i saw the video of mirage illusion on the inter-net .it consists of two concave mirrors placed in front of each other such that focus point on each mirror is on the pole of the other mirror.one of the mirrors has a hole in between.i decided to make one...
  41. L

    Confused about image size in plane, concave, or convex mirrors

    So I know these equations 1/f = 1/p + 1/i m = -i/p f: focal length p: object distance from mirror i: image distance from mirror m: magnification Let's say that I have an object in front of a concave or convex mirror with the same |f|. p is much larger than the radius of curvature...
  42. 3

    Derivation for magnification equation for convex mirrors

    Hello everyone, I really run into a problem here. The magnification equation for mirrors describes such a relation: M=-distance of image/distance of object = height of image/height of object. (M=(-i/o)=h'/h). I understand how this formula can be proved using a ray diagram for concave...
  43. E

    Specular reflection from moving mirrors

    Question: Does the law of specular reflection (angle in = angle out) for obliquely incident light rays still hold if the mirror is translating in a direction parallel to its normal direction? If not, what different effects attend said translation if a) the motion is toward or away from...
  44. L

    Magnetic Mirrors: Exploring Conservation & Torque in Plasma Physics

    I'm taking a short course in plasma physics, and we've covered quickly the magnetic mirror. So the idea is that an ion, say a proton, moves along a helical path along parallel B-field lines - say in z-direction. Then the lines converge towards the z-axis, forming a shape like a bottleneck, with...
  45. D

    Facts about Mirrors and Lenses: What You Need to Know for Your Final

    Homework Statement I am studying for my final and just want some clarification on mirror facts. Homework Equations The Attempt at a Solution Convex: focal length = negative and concave is opposite positive Diverginging = - image dist converging just the opposite or positive if...
  46. majormaaz

    How Do You Calculate Image Distance with Multiple Lenses?

    Homework Statement Two lenses that are L = 34 cm apart are used to form an image, as shown in figure. Lens 1 is converging and has a focal length f1 = 13 cm; lens 2 is diverging and has a focal length f2 = -7.0 cm. I am supposed to find out the distance from the first mirror...
  47. LarryS

    How Does Reflection Affect Photon Phase Shift in Quantum Experiments?

    I read about one version of the double-slit experiment that uses a light beam from a laser and a combination of fully-silvered and half-silvered mirrors. The author, Roger Penrose, describes one part of the experimental apparatus in which a light beam from a laser, traveling “north”...
  48. S

    How can I explain the mirage created from two parabolic mirrors?

    Hi. I would like to know where can I find detailed information on how is a mirage created when you place an object between two parabolic mirrors, with one of them opened. You must know about this device: http://www.optigone.com/mirage_images/hologramWhand.gif In other words, I would like...
  49. S

    Calculate No of Images Formed by 2 Mirrors at Angle α

    Is there any formula for calculating the no of images formed by two mirrors at an angle say α. If yes,then please guide me to a proof of the same.
  50. M

    Can someone explain the logic behind Einstein's Mirrors Experiment?

    *** Had a chance to rethink this and still believe it makes sense, so I need somebody to put me straight :-) *** Ok. Having been beaten senseless until I can see how the maths behind Einstein's Mirrors Experiment works, another question to help with my journey...
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