{ "id": "01f4f357c03b80bc3bdcec3ecc0eaaec6c205ef5", "text": "of Men; and that it is frequently made use of for the taking of Films from the Eyes of Horses and other Beasts. I hear also that they sell good quantities of it to the Druggists of London, but for what use I know not. This is all I could learn concerning Calamine. If I have omitted any thing wherein you are desirous of further Information; or if in any other Concern of this Nature I can be serviceable, you may freely command,\n\nWrington,\nOct.25.84.\n\nTours, &c.\n\nVIII. An Arithmetical Paradox, concerning the Chances of Lotteries, by the Honourable Francis Roberts, Esq; Fellow of the R. S.\n\nAs some Truths (like the Axiomes of Geometry and Metaphysics) are self-evident at the first View, so there are others no less certain in their Foundation, that have a very different Aspect, and without a strict and careful Examination rather seem repugnant.\n\nWe may find Instances of this kind in most Sciences.\n\nIn Geometry, That a Body of an infinite Length may yet have but a finite Magnitude.\n\nIn Geography, That if Antwerp be due East to London, for that reason London cannot be West to Antwerp.\n\nIn Astronomy, That at the Barbadoes (and other places between the Line and Tropick) the Sun, part of the Year, comes twice in a Morning to some Points of the Compass.\nIn Hydrostaticks, That a hollow Cone (standing upon its Basis) being fill'd with Water, the Water shall press the bottom with three times the Weight, as if the same Water was frozen to Ice; and Figures might be contrived to make it press a hundred times as much.\n\nThese Speculations, as they are generally pleasant, so they may also be of good use to warn us of the Mistakes we are liable to, by careless and superficial reasoning.\n\nI shall add one Instance in Arithmetick, which perhaps may seem as great a Paradox as any of the former.\n\nThere are two Lotteries, at either of which a Gamester paying a Shilling for a Lot or Throw; the First Lottery upon a just Computation of the Odds has 3 to 1 of the Gamester, the Second Lottery but 2 to 1; nevertheless the Gamester has the very same disadvantage (and no more) in playing at the First Lottery as the Second.\n\nIt looks very like a Contradiction, that the Disadvantage should be no greater in playing against 3 to 1 than 2 to 1, but it may thus be resolv'd.\n\nLet the Lottery consist of 3 Blanks and 3 Prizes of 16 pence a piece.\n\nIn the first Lottery the Gamester hazards a Shilling to win a Groat, and the Chances being equal, it is evident there is 3 to one against him.\n\nIn the Second Lottery the Gamester ventures a Shilling against a Shilling, and the Lots being 4 to 2, his Disadvantage is 2 to 1.\n\nAnd a Lot at either of them being truly worth just 8 Pence, (viz. the 6th part of 3 times 16 Pence, or twice 2 Shillings) the Disadvantage must be the very same\nfame in both Cases, that is, the Gamester pays a Shilling for a Lot that is worth but 8 Pence.\n\nThe Method of finding this Answer being somewhat out of the common Road, I shall here add it, and thereby infinite Solutions of the same kind may be discovered.\n\n1st Lottery. \nLet \\(a\\) = the number of Blanks. \n\\(b\\) = the number of Prizes. \n\\(r\\) = the Value of a Prize. \n\\(m\\) = the number of Blanks. \n\\(n\\) = the number of Prizes. \n\\(s\\) = the value of a Prize.\n\n1 = to what you pay for a Lot, viz. a Shilling.\n\nSo the Lottery has its Chances for 1, and the Gamester his for \\(r - 1\\). Now the true Odds consisting of the compounded Proportion of the Chances and the Values, viz. \\(\\frac{a}{b}\\) and \\(\\frac{1}{r-1}\\), the Share of the Lottery will be \\(a\\), and that of the Gamester \\(rb - b\\). Therefore as the present case stands, the first Lottery must be \\(a = 3rb - 3b\\), and by the like reasoning the second Lottery will be \\(m = 2sn - 2n\\). Now the Value of a Lot being the Sum of the Prizes divided by the number of Lots, (which must be equal in both Lotteries) it yields\n\n\\[\n\\frac{rb}{a+b} = \\frac{sn}{m+n}\n\\]\n\nSo to proceed.\n\n\\[\n\\begin{array}{c|c}\na & 1 \\\\\nb & 2 \\\\\nr & 3 \\\\\nm & 4 \\\\\nn & 5 \\\\\ns & 6 \\\\\n\\end{array}\n\\]\n\n\\[\n\\begin{array}{c|c}\na = 3rb - 3b \\\\\nm = 2sn - 2n \\\\\n\\frac{rb}{a+b} = \\frac{sn}{m+n} \\\\\n(*)\n\\end{array}\n\\]\n\\[\n\\begin{align*}\nq &= ? \\\\\n7 \\times a + b &\\quad 8 \\quad rb = qa + qb \\\\\n8 \\times 3 &\\quad 9 \\quad 3rb = 3qa + 3qb \\\\\n1 + 3b &\\quad 10 \\quad 3rb = a + 3b \\\\\n9, 10 &\\quad 11 \\quad 3qa + 3qb = a + 3b \\\\\n\\end{align*}\n\\]\n\n**Scope**\n\n12 If \\(a = 0\\) to avoid negative Numbers.\n\n13 \\(3b = 3qb\\)\n\n14 \\(q = 1\\)\n\n15 \\(q > 1\\) makes \\(a < 0\\), \\(q < 1\\) makes \\(a > 0\\)\n\n**Scope**\n\n16 If \\(b = 0\\)\n\n17 \\(3qa = a\\)\n\n18 \\(q = \\frac{1}{2}\\)\n\n19 \\(q < \\frac{1}{2}\\) makes \\(b < 0\\), \\(q > \\frac{1}{2}\\) makes \\(b > 0\\)\n\n\\[\n\\begin{align*}\n3, 7, &\\quad 20 \\quad \\frac{sn}{m+n} = q \\\\\n20 \\times m + n &\\quad 21 \\quad sn = qm + qn \\\\\n21 \\times 2 &\\quad 22 \\quad 2sn = 2qm + 2qn \\\\\n2 + 2n &\\quad 23 \\quad 2sn = m + 2n \\\\\n22, 23 &\\quad 24 \\quad 2qm + 2qn = m + 2n \\\\\n\\end{align*}\n\\]\n\n**Scope**\n\n25 If \\(m = 0\\)\n\n26 \\(2qn = 2n\\)\n\n27 \\(q = 1\\)\n\n28 \\(q > 1\\) makes \\(m < 0\\), \\(q < 1\\) makes \\(m > 0\\)\n\n**Scope**\n\n29 If \\(n = 0\\)\n\n30 \\(2qm = m\\)\n\n31 \\(q = \\frac{1}{2}\\)\n\n32 \\(q < \\frac{1}{2}\\) makes \\(n < 0\\), \\(q > \\frac{1}{2}\\) \\(n > 0\\)\n\n33 that \\(abmn\\) may be \\(> 0\\), \\(q\\) must be \\(> \\frac{1}{2}\\) \\(< 1\\)\nLet therefore \\( Q = \\)\n\n\\[\n\\frac{r b}{a + b} = \\frac{2}{3}\n\\]\n\n\\[\n3rb = 2a + 2b = a + 3b\n\\]\n\n\\[\na = b\n\\]\n\n\\[\n\\frac{s n}{m + n} = \\frac{2}{3}\n\\]\n\n\\[\n3sn = 2m + 2n\n\\]\n\n\\[\n6sn = 4m + 4n\n\\]\n\n\\[\n6sn = 3m + 6n\n\\]\n\n\\[\n4m + 4n = 3m + 6n\n\\]\n\n\\[\nm = 2n\n\\]\n\n\\[\n1 = 3r - 3\n\\]\n\n\\[\n3r = 4\n\\]\n\n\\[\n2 = 2s - 2\n\\]\n\n\\[\n2s = 4\n\\]\n\nLet \\( A = 3 \\)\n\n\\( B = 3 \\)\n\n\\( R = \\frac{4}{3}, \\text{id est, } 16 \\text{ Pence.} \\)\n\nLet \\( M = 4 \\)\n\n\\( N = 2 \\)\n\n\\( S = 2 \\text{ Shillings.} \\)", "source": "olmocr", "added": "2026-01-12", "created": "2026-01-12", "metadata": { "Source-File": "/home/jic823/projects/def-jic823/royalsociety/pdfs/101960.pdf", "olmocr-version": "0.3.4", "pdf-total-pages": 6, "total-input-tokens": 9132, "total-output-tokens": 2164, "total-fallback-pages": 0 }, "attributes": { "pdf_page_numbers": [ [ 0, 0, 1 ], [ 0, 1263, 2 ], [ 1263, 2782, 3 ], [ 2782, 4124, 4 ], [ 4124, 5217, 5 ], [ 5217, 5677, 6 ] ], "primary_language": [ "en", "en", "en", "en", "en", "en" ], "is_rotation_valid": [ true, true, true, true, true, true ], "rotation_correction": [ 0, 0, 0, 0, 0, 0 ], "is_table": [ false, false, false, false, true, false ], "is_diagram": [ false, false, false, false, false, false ] }, "jstor_metadata": { "identifier": "jstor-101960", "title": "An Arithmetical Paradox, concerning the Chances of Lotteries, by the Honourable Francis Roberts, Esq; Fellow of the R. S.", "authors": "Francis Roberts", "year": 1693, "volume": "17", "journal": "Philosophical Transactions (1683-1775)", "page_count": 6, "jstor_url": "https://www.jstor.org/stable/101960" } }