Leibniz needed to contact a broader scientific community, so he became in contact with Christian Huygens, a Danish scientist, and Collins and Henry Oldenburg, secretary of the Royal Society. Leibniz sent his ideas to Collin. In return, Collin sent Leibniz the latest ideas circulating the Royal Society.
Leibniz’s impact on the emergence of modern logic, be it mathematical, algebraic, algorithmic or symbolic logic, is an important topic for understanding the emergence and development of the logic predominant today (on Leibniz’s influence and reception cf. Heinekamp (ed.) 1986; on his influence in logic cf. Peckhaus 1997).
The extraordinary breadth and depth of Leibniz's intellectual vision commands ever increasing attention. As more texts gradually emerge from seemingly bottomless archives, new facets of his contribution to an astonishing variety of fields come to light. This volume provides a uniquely comprehensive, systematic, and up-to-date appraisal of Leibniz's thought thematically organized around its.
Leibniz’s contribution in mathematics was in the year 1675, when he discovered the fundamental principles of infinitesimal calculus. He arrived at this discovery independently at the same time along with the English scientist Sir Isaac Newton in 1666. However, Leibniz’s system was published in 1684, three years before Newton published his.
Gottfried Wilhelm Leibniz (1646-1716) was a true polymath recognized for his excellence in many fields, particularly philosophy, theology, mathematics, and logic. He is considered a cofounder, along with Isaac Newton, of the Calculus. In 1682, Leibniz, together with a fellow German philosopher and scientist, Otto Mencke (1644-1703), founded a scholarly journal, Acta Eruditorum (Reports of.