![Binary Relation: A binary relation between sets A and B is a subset of the Cartesian Product A x B. If A = B we say that the relation is a relation Binary Relation: A binary relation between sets A and B is a subset of the Cartesian Product A x B. If A = B we say that the relation is a relation](https://slideplayer.com/12041192/69/images/slide_1.jpg)
Binary Relation: A binary relation between sets A and B is a subset of the Cartesian Product A x B. If A = B we say that the relation is a relation
![Relations - review A binary relation on A is a subset of A×A (set of ordered pairs of elements from A) Example: A = {a,b,c,d,e} R = { (a,a),(a,b),(b,b),(b,c), - ppt download Relations - review A binary relation on A is a subset of A×A (set of ordered pairs of elements from A) Example: A = {a,b,c,d,e} R = { (a,a),(a,b),(b,b),(b,c), - ppt download](https://slideplayer.com/4514571/15/images/slide_1.jpg)
Relations - review A binary relation on A is a subset of A×A (set of ordered pairs of elements from A) Example: A = {a,b,c,d,e} R = { (a,a),(a,b),(b,b),(b,c), - ppt download
![If displaystyle R is a binary relation on a displaystyle A, define R^{-1} on displaystyle A.Let displaystyle R = { (a, b) : a, b in W and 3a + 2b = If displaystyle R is a binary relation on a displaystyle A, define R^{-1} on displaystyle A.Let displaystyle R = { (a, b) : a, b in W and 3a + 2b =](https://haygot.s3.amazonaws.com/questions/1858794_1708560_ans_68616df6abef46e5b47688d5e895904f.jpeg)
If displaystyle R is a binary relation on a displaystyle A, define R^{-1} on displaystyle A.Let displaystyle R = { (a, b) : a, b in W and 3a + 2b =
![If displaystyle R is a binary relation on a displaystyle A, define R^{-1} on displaystyle A.Let displaystyle R = { (a, b) : a, b in W and 3a + 2b = If displaystyle R is a binary relation on a displaystyle A, define R^{-1} on displaystyle A.Let displaystyle R = { (a, b) : a, b in W and 3a + 2b =](https://haygot.s3.amazonaws.com/questions/1858800_1708565_ans_ef166a7e576e4d488948fb4ede4adba7.jpeg)