BibTex Citation Data :
@article{JM1390, author = {Lucia Ratnasari}, title = {LOKALISASI ORE}, journal = {MATEMATIKA}, volume = {9}, number = {3}, year = {2012}, keywords = {}, abstract = { Let be a noncommutative ring and be a multiplicative subset of . The right (left) ring of quotients does not exist for every. A necessary condition of existence right (left) ring of quotients is right (left) permutable and right (left) reversible. A multiplication subset is called a right (left) denominator if it is right (left) permutable and right (left) reversible. The ring has a right (left) ring of quotients with respect to if and only if is a right (left) denominator set. We can construct right (left) ring of quotients by using Ore localizations. }, url = {https://ejournal.undip.ac.id/index.php/matematika/article/view/1390} }
Refworks Citation Data :
Let be a noncommutative ring and be a multiplicative subset of . The right (left) ring of quotients does not exist for every. A necessary condition of existence right (left) ring of quotients is right (left) permutable and right (left) reversible. A multiplication subset is called a right (left) denominator if it is right (left) permutable and right (left) reversible. The ring has a right (left) ring of quotients with respect to if and only if is a right (left) denominator set. We can construct right (left) ring of quotients by using Ore localizations.
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