# Mirror equation

We've derived one set of the curved mirror equations -- for a real image and a concave (converging) mirror -- but there are two more sets for a virtual image and a converging mirror and a virtual image with a diverging (convex) mirror. Mirror equation worksheet - download as word doc (doc / docx), pdf file (pdf), text file (txt) or read online high school exercise on physics optics reflection on mirrors. Online physics calculator that calculates the concave mirror equation from the given values of object distance (do), the image distance (di), and the focal length (f).

A curved mirror is a mirror with a curved reflecting surface the surface may be either convex mirror equation, magnification, and focal length edit. Fresnel's equations for reflection and transmission these equations are called the fresnel equations for windows look like mirrors at night. Mirror equations of curved mirrors we use the given picture below to derive the equations of concave and convex mirrors while deriving equations we use the similarities of triangles given picture above. A curved mirror is a mirror with a curved reflecting surface the mirror equation and magnification equation can be derived geometrically by considering these two .

Convex mirrors have reflective surfaces that curve outward in this lesson, learn about the types of images that can be formed by a convex mirror. In this video david solves a few exmaple problems involving concave and convex mirrors using the mirror equation and magnification equation. In this video david derives the mirror equation and magnification equation created by david santopietro watch the next lesson: . Title: mirror or lens equations author: guy and shannon last modified by: berkner created date: 4/16/2009 4:16:25 am document presentation format – a free powerpoint ppt presentation (displayed as a flash slide show) on powershowcom - id: 595d62-yjk3z.

Derivation of mirror formula mirror formula: the mirror formula is used to give the relation between the focal length of the mirror, the object o and the image v. Physics 41- lab 5 determination of focal length of a converging lens and mirror objective: apply the thin-lens equation and the mirror equation to determine the focal length of a. A plane mirror is a very smooth surface that can reflect a beam of light in one direction instead of either scattering it widely in many directions or absorbing it a shiny metal surface acts as a mirror a concrete wall does not.

## Mirror equation

\snc2d\optics\mirror equation questionsdoc snc 2d mirror equation questions • based on the geometry of the rays theoretically reflecting from a curved mirror, the mirror. The mirror equation ray diagrams can be used to determine the image location, size, orientation and type of image formed of objects when placed at a given location in front of a concave mirror. Alternate, consistent conventions we may use di erent equations for mirrors and lenses but the same conventions in each case the lateral magni cation is the same for each:. In this video we will learn the mirror equation and how to find the height and distance of an image.

- The mirror equation - convex mirrors ray diagrams can be used to determine the image location, size, orientation and type of image formed of objects when placed at a given location in front of a mirror.
- Applications of spherical mirrors carlyle moore example 37 equation (115) is known as the gaussian form of the mirror equation show that, for a concave mirror, it may be written as , where f is the focal length of the mirror, and are the x-coordinates of the object and the image, respectively, with respect to the principal focus as origin.
- The mirror equation is: 1/s 0 + 1/s 1 = 2/r = 1/f where: s 0: object distance from the mirror, in meter s 1: image distance from the mirror, in meter r: radius of curvature of the mirror, in meter.

The mirror equation drawing a ray diagram is a great way to get a rough idea of how big the image of an object is, and where the image is located we can also calculate these things precisely, using something known as the mirror equation. A mathematical equation may derived that relates the position of the object, the position of the image and the focal length of a curved mirror, either for a converging or a diverging mirror the. A 3-meter tall truck is driving behind your car and is located 8 meters from your convex rearview mirror 10 if the mirror has a radius of curvature of 80 cm, find the position of the image.