Open problem

In science and mathematics, an open problem or an open question is a known problem that can be accurately stated, and has not yet been solved (no solution for it is known). Some questions remain unanswered for centuries before solutions are found. Two notable examples in mathematics that have been solved and closed by researchers in the late twentieth century are Fermat's Last Theorem^[1], the four color map theorem.^[2]^[3] and the Poincare Conjecture.

Important open problems exist in many fields, such as Physics, Chemistry, Biology, Computer science, and Mathematics. For example, one of the most important open problems in biochemistry is the protein structure prediction problem^[4]^[5] – how to predict a protein's structure from its sequence.

It is common in graduate schools to point out open problems to students. Graduate students as well as faculty members often engage in research to solve such problems.

References

^ Faltings, Gerd (1995), "The Proof of Fermat's Last Theorem by R. Taylor and A. Wiles" (PDF), Notices of the AMS, 42 (7): 743–746, ISSN 0002-9920 {{citation}}: Unknown parameter |month= ignored (help)
^ K. Appel and W. Haken (1977), "Every planar map is four colorable. Part I. Discharging", Illinois J. Math 21: 429–490. MR 58:27598d
^ K. Appel, W. Haken, and J. Koch (1977), "Every planar map is four colorable. Part II. Reducibility", Illinois J. Math 21: 491–567. MR 58:27598d
^ Vendruscolo, M.; Najmanovich, R.; Domany, E. (1999), "Protein Folding in Contact Map Space", Physical Review Letters, 82 (3): 656–659, Bibcode:1999PhRvL..82..656V, doi:10.1103/PhysRevLett.82.656
^ Dill, K.A.; Ozkan, S.B.; Weikl, T.R.; Chodera, J.D.; Voelz, V.A. (2007), "The protein folding problem: when will it be solved?" (PDF), Current Opinion in Structural Biology, 17 (3): 342–346, doi:10.1016/j.sbi.2007.06.001, PMID 17572080

External links

Kennedy, Donald; Norman, Colin (2005), "What Don't We Know?", Science, 309 (5731): 75–75, doi:10.1126/science.309.5731.75, PMID 15994521
"So much more to know", Science (journal), 309 (5731): 78–102, 2005, doi:10.1126/science.309.5731.78b, PMID 15994524 {{citation}}: Unknown parameter |month= ignored (help)
Open Problem Garden The collection of open problems in mathematics build on the principle of user editable ("wiki") site

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[1] Faltings, Gerd (1995), "The Proof of Fermat's Last Theorem by R. Taylor and A. Wiles" (PDF), Notices of the AMS, 42 (7): 743–746, ISSN 0002-9920 {{citation}}: Unknown parameter |month= ignored (help)

[Appel1977a-2] K. Appel and W. Haken (1977), "Every planar map is four colorable. Part I. Discharging", Illinois J. Math 21: 429–490. MR 58:27598d

[Appel1977b-3] K. Appel, W. Haken, and J. Koch (1977), "Every planar map is four colorable. Part II. Reducibility", Illinois J. Math 21: 491–567. MR 58:27598d

[Vendruscolo1999-4] Vendruscolo, M.; Najmanovich, R.; Domany, E. (1999), "Protein Folding in Contact Map Space", Physical Review Letters, 82 (3): 656–659, Bibcode:1999PhRvL..82..656V, doi:10.1103/PhysRevLett.82.656

[Dill2007-5] Dill, K.A.; Ozkan, S.B.; Weikl, T.R.; Chodera, J.D.; Voelz, V.A. (2007), "The protein folding problem: when will it be solved?" (PDF), Current Opinion in Structural Biology, 17 (3): 342–346, doi:10.1016/j.sbi.2007.06.001, PMID 17572080

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References

External links