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Since C = 2πr, the circumference of a unit circle is 2π. In mathematics, a unit circle is a circle of unit radius—that is, a radius of 1. [1] Frequently, especially in trigonometry, the unit circle is the circle of radius 1 centered at the origin (0, 0) in the Cartesian coordinate system in the Euclidean plane.
The unit of measurement varies by region: a United States liquid tablespoon is approximately 14.8 ml (0.50 US fl oz), a European, United Kingdom and Canadian tablespoon is exactly 15 ml (0.51 US fl oz), [2] and an Australian tablespoon is 20 ml (0.68 US fl oz). [3]
These cutlery spoons are also called a "teaspoon" and "tablespoon", but are not necessarily the same volume as measuring spoons with the same names: Cutlery spoons are not made to standard sizes and may hold 2.5~7.3 ml (50%~146% of 5 ml) for teaspoons [3] and 7~20 ml (47%~133% of 15 ml) for tablespoons. The difference in size can be dangerous ...
How many ounces in a pint? There are 16 fluid ounces in a pint. How many ounces in a quart? There are 32 fluid ounces in a quart. How many teaspoons in an ounce? A total of 6 teaspoons makes one ...
Circle packing in a circle is a two-dimensional packing problem with the objective of packing unit circles into the smallest possible larger circle. Table of solutions, 1 ≤ n ≤ 20 [ edit ]
A page from Archimedes' Measurement of a Circle. Measurement of a Circle or Dimension of the Circle (Greek: Κύκλου μέτρησις, Kuklou metrēsis) [1] is a treatise that consists of three propositions, probably made by Archimedes, ca. 250 BCE. [2] [3] The treatise is only a fraction of what was a longer work. [4] [5]
1.7 US fl oz: 1.8 imp fl oz: 50 mL: Replaced the 2 US fl oz (59 mL) US miniature-sized bottle after metrication. Typically served on airline flights. Also known as a "nip" or "shooter" in certain locales, or a “Mini” in Canada. Half pint: 6.8 US fl oz: 7.0 imp fl oz: 200 mL: Called a media pinta in Spanish or naggin in Ireland. [16]
Circle packing in a square is a packing problem in recreational mathematics, where the aim is to pack n unit circles into the smallest possible square. Equivalently, the problem is to arrange n points in a unit square aiming to get the greatest minimal separation, d n , between points. [ 1 ]