John Venn should be viewed as a widely-heralded British mathematician who managed to revolutionize the tradition of mathematical inquiry, which in turn created a platform for real changes in mindsets and perceptions across the world. It can be said with certainty that his legacy within the area of statistics is not some vague thing; the focus here lies in arguing that the theory of statistics John Venn developed in the 19 th century continues to be relevant in today’s society. Despite the fact that Venn was raised in an extremely religious family, it did not prevent him from becoming an academic reluctant to adhere to the beliefs of his church. As a matter of fact, John Venn sharpened his focus on three major fields of study – namely, mathematics, logic, and philosophy. A schematic diagram that the 19 th century mathematician elaborated in 1880 is used a lot to this day. In addition, it cannot be overstressed that many of his findings found application in computer science. On the whole, no one can fail to note that John Venn emerges to be a giant of modern sciences whose insights into mathematics, the touchstone of many issues (Zebell, 1989), greatly contributed to the way everything in the world is organized in these turbulent times.
John Venn, the English mathematician, logician, and philosopher, was born in Kingston, England, in 1834. Although his parents made stress upon brining up him in accordance with a strict religious value system, Venn went the other way. In 1853, John Venn entered Gonville & Cauis College at the University of Cambridge; upon his graduation, he received a bachelor’s degree in Mathematics. Shortly, he started working as a fellow at the University of Cambridge, and entering this stage brought the young John Venn closer to being appointed as a lecturer. Clearly, his appointment to the post as a lecturer in philosophy of science had a very strong effect on the formation of Venn’s multifaceted character. In 1883, his contributions to the fields of math, logic, and philosophy were eventually recognized by the world’s scientific community; this in turn worked towards receiving many awards for a prominent role he played in developing mathematical models. Of all the awards, however, it is important to make mention of a DSc degree John Venn received shortly after he had become a fellow of the Royal Society.
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Of course, John Venn had a talent for going into detail about the arrangement of things in our brain. Many of his pieces of research, including “Logic of Chance” (1866), “Symbolic Logic” (1881), and “Principles of Empirical Logic” (1889) should not be underestimated from the perspective of enlightening the masses on the major pillars of geometry as the key to getting to know the makeup of the universe (Pennick, 1980). Apart from an insightful investigation into mathematical logic and probability, John Venn demonstrated a strong interest in history and reflected a lot upon both his college and family ( Agarwal & Sen, 2014, p. 288). Throughout his lifetime, John Venn was much inspired by John Stuart Mill and William Stanley Jevons with their views of logic. In addition, it is imperative to make mention of a significant impact that Boole’s work had on the development of the Venn diagram, the method of geometrical representation that John Venn introduced in 1881.
It is no wonder that John Venn’s vision and ideas continue to resonate today. He made many lasting contributions that were far ahead of their time. All things considered, John Venn deserves mention as an advancing mathematician who created prerequisites for another leap forward in terms of our interpretation of symbolic logic.
References
Agarwal, R. P., & Sen, S. K. (2014). Creators of Mathematical and Computational Sciences.
New York: Springer.
Pennick, N. (1980). Sacred Geometry: Symbolism and Purpose in Religious Structures.
Wellingborough: Turnstone Press,
Zabell, S. L. (1989). The Rule of Succession. Erkenntnis 31, 283-321.
