Yahoo Web Search

Search results

1. People also ask

   What are Turing patterns?

   • Abstract: Turing patterns, first proposed by mathematician and computer scientist Alan Turing in 1952, describe a fascinating phenomenon of pattern formation within biological systems and beyond. His model answers questions like “How do zebras get their stripes?” or “How do cheetahs get their spots?”

   Turing Patterns - William & Mary

   cklixx.people.wm.edu/teaching/math400/Logan-Paper2.pdf

   See all results for this question

   What is Turing's pattern formation theory?

   • This process is the basis of Turing’s pattern formation theory. During the time of Turing’s discoveries, many believed that diffusion created stable conditions because diffusion is a dissipative system. As a result, it was thought that diffusion would simply cause substances to break apart and scatter.

   Turing Patterns - William & Mary

   cklixx.people.wm.edu/teaching/math400/Logan-Paper2.pdf

   See all results for this question

   What is Alan Turing theory?

   • Nearly seventy years ago Alan Turing, a pioneer of Computer Science, developed a theory to explain how certain patterns in nature could arise spontaneously from simple chemical systems. This idea was a significant departure from much of his previous work on the theory of computation, and used very different kinds of mathematics.

   A Modern View on Turing’s Theory of Pattern Formation

   royalsociety.org/blog/2021/11/turing-theory-pattern-formation/

   See all results for this question

   What is Turing patterning in vertebrate limb development?

   • Turing patterning is often found in combination with other patterns: vertebrate limb development is one of the many phenotypes exhibiting Turing patterning overlapped with a complementary pattern (in this case a French flag model).

   Turing pattern - Wikipedia

   en.wikipedia.org/wiki/Turing_pattern

   See all results for this question

   How did Alan Turing describe the patterns on animals?

   • The maths that Alan Turing used to describe the patterns on animals can be seen in lots of other parts of nature. Complicated patterns on shells (left) can be created from Turing’s maths (right) (Meinhardt 1995). When ants go to battle against each other, they create graveyards.

   Turing Pattern Project - Turing patterns - University of Sheffield

   turing-pattern-project.sites.sheffield.ac.uk/turing-patterns

   See all results for this question

   Can Turing patterns be applied outside of biology?

   • The interdisciplinary nature of this field makes it difficult to pinpoint the idea to only biological systems. There is evidence that the mechanisms behind Turing patterns can be applied elsewhere within biology and outside of it.

   Turing Patterns - William & Mary

   cklixx.people.wm.edu/teaching/math400/Logan-Paper2.pdf

   See all results for this question

2. en.wikipedia.org › wiki › Turing_patternTuring pattern - Wikipedia

   en.wikipedia.org › wiki › Turing_pattern

   • Cached

   The Turing pattern is a concept introduced by English mathematician Alan Turing in a 1952 paper titled "The Chemical Basis of Morphogenesis" which describes how patterns in nature, such as stripes and spots, can arise naturally and autonomously from a homogeneous, uniform state.

3. royalsociety.org › turing-theory-pattern-formationA Modern View on Turing’s Theory of Pattern Formation

   royalsociety.org › turing-theory-pattern-formation

   • Cached

   Nov 8, 2021 · Nearly seventy years ago Alan Turing, a pioneer of Computer Science, developed a theory to explain how certain patterns in nature could arise spontaneously from simple chemical systems. This idea was a significant departure from much of his previous work on the theory of computation, and used very different kinds of mathematics.

4. Videos

   • 

     1:48

     youtube.com

     New theory deepens understanding of Turing patterns

     20 Jun 2018

     8.5K views

   • 

     45:10

     youtube.com

     Prof. Philip Maini: Turing's Theory of Developmental Pattern Formation

     24 May 2012

     17.3K views

   • 

     5:25

     youtube.com

     Turing Machines Explained - Computerphile

     29 Aug 2014

     1.1M views

   View all

5. turing-pattern-project.sites.sheffield.ac.ukTuring Pattern Project - Turing patterns

   turing-pattern-project.sites.sheffield.ac.uk

   • Cached

   What is a Turing pattern? In 1952 famous mathematician Alan Turing wrote down an idea about how humans and animals grow. Alan imagined that there were chemicals inside our bodies that tell us how to grow. He imagined that these chemicals create patterns on the skin of animals - like cheetahs and zebras.

6. www.chemistryworld.com › features › turing-patternsTuring patterns | Feature | Chemistry World

   www.chemistryworld.com › features › turing-patterns

   Turing showed how chemical reactions can create patterns. If you mix the ingredients he specified, they can separate into quasi-ordered patches of different composition.

7. Images

   • 
   • 
   • 
   • 

   View all

8. www.nature.com › articles › s43588/022/00306-0Turing patterns, 70 years later | Nature Computational Science

   www.nature.com › articles › s43588/022/00306-0

   Aug 14, 2022 · To explain the development of patterns, Turing proposed the addition of instability to a linear system of molecular movement by introducing diffusion of morphogens at specific...

9. cklixx.people.wm.edu › teaching › math400Turing Patterns - William & Mary

   cklixx.people.wm.edu › teaching › math400

   Abstract: Turing patterns, first proposed by mathematician and computer scientist Alan Turing in 1952, describe a fascinating phenomenon of pattern formation within biological systems and beyond. His model answers questions like “How do zebras get their stripes?” or “How do cheetahs get their spots?”

10. www.oxfordsparks.ox.ac.uk › podcasts › what-areWhat are Turing Patterns? - Oxford Sparks

    www.oxfordsparks.ox.ac.uk › podcasts › what-are

    • Cached

    Jan 26, 2015 · Dr Christian Yates describes a phenomenon first noticed by the World War II code-breaker, Alan Turing. Turing noticed that natural patterns such as spots, stripes and spirals arose from chemical diffusion – a situation that normally leads to uniformity and stability.