Downloaded 122 times
More Related Content
![This is the VERY FIRST LOOK of 10 minute school [2013]](https://cdn.slidesharecdn.com/ss_thumbnails/thisistheveryfirstlookof10minuteschool2013-161221125727-thumbnail.jpg?width=640&height=640&fit=bounds)
Similar to Abstract algebra & its applications (1)
Abstract algebra & its applications (1)
- 1.
- 2. MEGA - 2015 (MathematicalExcellence Gears Advancement-2015) SRI SARADA NIKETAN COLLEGE FOR WOMEN Amaravathipudur, Karaikudi -630301 . DEPARTMENT OF MATHEMATICS State Level Workshop ‘Abstract Algebra and its Applications’ 28th August , 2015.
- 3. Presentation on ‘Abstract Algebraand its Applications’ Presented by Dr.S.SelvaRani, Principal Sri Sarada Niketan College For Women Amaravathipudur Venue : Nivedita Hall Sri Sarada Niketan College for Women, Date : 28th August , 2015
- 4. Abstract Algebra isthe study of . The term abstract algebra was coined in the early 20th century to distinguish this area of study from the the parts of algebra. Solving of systems of linear equations, which led to Linear algebra is the branch of concerning and between such spaces.
- 5. •Solving of systemsof linear equations, which led to •Attempts to find formulae for solutions of general equations of higher degree that resulted in discovery of as abstract manifestations of •Arithmetical investigations of quadratic and higher degree forms that directly produced the notions of a and .
- 6.
- 7. on numbers- - oftheorem Friedric Gauss - &general groups In 1870, - abelian group- particularly, permutation groups. gave a similar definition that involved the . Lagrange resolvants by Lagrange. The remarkable Mathematicians are ..Kronecker,Vandermonde,Galois,Augustin Cauchy , Cayley-1854-….Group may consists of Matrices.
- 8. The endof the 19th and the beginning of the 20th century saw a tremendous shift in the methodology of mathematics. Abstract algebra emerged around the start of the 20th century, under the name modern algebra. Its study was part of the drive for more in mathematics. Initially, the assumptions in classical , on which the whole of mathematics (and major parts of the ) depend, took the form of .
- 9. and , whohad considered ideals in commutative rings, and of and , concerning representation theory of groups, came to define abstract algebra. These developments of the last quarter of the 19th century and the first quarter of 20th century were systematically exposed in 's Moderne algebra. The two-volume mo published in 1930– 1931 that forever changed for the mathematical world the meaning of the word… “ algebra “ from the’ theory of equations’ to the ‘ theory of algebraic structures’.
- 10. Examples ofalgebraic structures with a single are:
- 11. More complicatedexamples include:
- 12. Binary operationsare the keystone of algebraic structures studied in A binary operation is an operation that applies to two quantities or expressions and . A binary operation on a is a map such that 1. is defined for every pair of elements in , and 2. uniquely associates each pair of elements in to some element of .
- 13. On theset M(2,2) of 2 × 2 matrices with real entries, f (A, B) = A + B is a binary operation since the sum of two such matrices is another 2 × 2 matrix.
- 14. In ,a magma (or groupoid) is a basic kind of . Specifically, a magma consists of a , M, equipped with a single , M × M → M. The binary operation must be by definition but no other properties are imposed.
- 15. Group-like structures Unneeded RequiredUnneeded Unneeded Unneeded Unneeded Required Required Unneeded Unneeded Unneeded Required Required Required Unneeded Required Unneeded Unneeded Unneeded Unneeded Required Unneeded Unneeded Required Unneeded Required Unneeded Required Required Unneeded Required Required Unneeded Unneeded Unneeded Required Required Required Unneeded Unneeded Required Required Required Required Unneeded Required Required Required Required Required
- 16. Representation theoryis a branch of that studies by representing their as of , and studies over these abstract algebraic structures. A representation makes an abstract algebraic object more concrete by describing its elements by and the in terms of and structures. The most prominent of these (and historically the first) is the
- 17. Let Vbe a over a F. The set of all n × n matrices is a group under The analyses a group by describing ("representing") its elements in terms of invertible matrices. This generalizes to any field F and any vector space V over F, with replacing matrices and matrix multiplication: There is a group of of V an associative algebra EndF(V) of all endomorphisms of V, and a corresponding Lie algebra gl(V,F).
- 18. Representation theory studiessymmetry in Linear spaces. • It has many applications, ranging from number theory to geometry, probability theory, quantum mechanics and quantum field theory. •Representation theory was born in 1896 in the work of the German mathematician F. G. Frobenius. •And major contributors are : Dedekind, Burnside and A.H.Clifford. Applications & Contributors
- 19. Because ofits generality, abstract algebra is used in many fields of mathematics and science. For instance, uses algebraic objects to study topologies. The recently (As of 2006) proved asserts that the of a manifold, which encodes information about connectedness, can be used to determine whether a manifold is a sphere or not. studies various number that generalize the set of integers. Using tools of proved .
- 20. In physics,groups are used to represent symmetry operations, and the usage of group theory could simplify differential equations. In , the requirement of can be used to deduce the equations describing a system The groups that describe those symmetries are , and the study of Lie groups and Lie algebras reveals much about the physical system; For instance, the number of in a theory is equal to dimension of the Lie algebra And these interact with the force they mediate if the Lie algebra is nonabelian.[2
- 21.