benzer daha küçük elemanların oluşturduğu şekil

listen to the pronunciation of benzer daha küçük elemanların oluşturduğu şekil
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fractal
A geometric figure which has a Hausdorff dimension which is greater than its topological dimension
A geometric figure that appears irregular at all scales of length, e.g. a fern
Object which is self-similar at all scales Regardless of scale the same level of detail and appearance is present
A term coined by Benoit Mandelbrot to refer to items with fractional dimensions as opposed to the integer dimensions such as 1, 2 and 3 associated with length, area and volume Often used to refer to a structure bearing statistically similar details over a wide range of scales
(mathematics) a geometric pattern that is repeated at every scale and so cannot be represented by classical geometry
A geometric entity characterized by self-similarity (see figure 2): the whole entity is similar to a smaller portion of itself, but has a higher level of recursion (see recursion) Therefore, it can usually be represented by a recursive definition When using a fractal to represent a physical object, some degree of randomness is usually added to make the image more realistic
A System having similar detail at all scales, leading to intricate patterns and unexpected features A system with a non-integer dimension
Having the form of a fractal
Mathematician Benoit Mandelbrot's term for shapes that are "self-similar," appearing the same at different magnifications A fractal can be created by duplicating a shape successively according to a set of rules The results can be complex structures, which resemble seemly random-shaped things in nature, such as clouds, trees, and mountains An application of fractals is to represent complex imagery in very concise algorithms See WhamVET
A fractal is a shape where self-similarity dimension is greater than topological dimension
An object having a fractional dimension: one which has variation that is self-similar at all scales, in which the final level of detail is never reached and never can be reached by increasing the scale at which observations are made
In geometry, a fractal is a shape made up of parts that are the same shape as itself and are of smaller and smaller sizes. a pattern, usually produced by a computer, that is made by repeating the same shape many times in smaller and smaller sizes (fractus; FRACTION)
Computer-generated images corresponding to mathematical equations, that repeat self-similar patterns at infinitely receding levels of organization
A kind of image that is defined recursively, so that each part of the image is a smaller version of the whole
A mathematically generated pattern that is reproducible at any magnification or reduction
The smallest part of a mathematical set of numbers which when repeated or scaled will maintain the primary permutation A branch of mathematics called Fractal Geometry utilizes fractals to make complex shapes with very true to life features One is led to believe that life and living systems make use of fractal holographic concepts as living systems experience growth upwards based upon previous "mathematical instructions" scaled in size
(adj ) The term, short for fractional dimensional, used to describe graphics with randomly generated curves and surfaces that exhibit a degree of self-similarity Fractal design tools provide new opportunities for designers to produce complex patterns with more visual realism than can be output from conventional geometry programs
{i} groups that have broken dimensions so that each one looks like an exact copy of the second (like the Mandelbrot group in Mathematics); (In Computers) geometric shapes that have interesting contour lines
A fractal has statistical self-similarity at all resolutions and is generated by an infinitely recursive process In reality, those fractals generated by finite processes may exhibit no visible change in detail after some stage so are adequate approximations So, for computer graphics we can extend the definition to include anything that has a substantial measure of exact or statistical self-similarity This is illustrated by three stages of the construction of the von Koch snowflake below where each straight edge is repeatedly replaced by a copy of the entire figure Fractals are useful for generating natural appearing shapes or textures, such as land and cloudscapes
benzer daha küçük elemanların oluşturduğu şekil

    Hyphenation

    ben·zer da·ha kü·çük e·le·man·la·rın o·luş·tur·du·ğu şe·kil

    Pronunciation

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