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         Math Constant:     more books (33)
  1. Constant: Webster's Timeline History, 1998 by Icon Group International, 2010-03-10
  2. Constant: Webster's Timeline History, 1991 - 1992 by Icon Group International, 2010-03-10
  3. Constant: Webster's Timeline History, 1995 by Icon Group International, 2010-03-10
  4. Constant: Webster's Timeline History, 689 BC - 1899 by Icon Group International, 2010-03-10
  5. Constant: Webster's Timeline History, 1993 - 1994 by Icon Group International, 2010-03-10
  6. Constant: Webster's Timeline History, 1999 by Icon Group International, 2010-03-10
  7. Constant: Webster's Timeline History, 2000 by Icon Group International, 2010-03-10
  8. Constant: Webster's Timeline History, 1900 - 1974 by Icon Group International, 2010-03-10
  9. Constant: Webster's Timeline History, 2004 - 2007 by Icon Group International, 2010-03-10
  10. Constant: Webster's Timeline History, 2002 - 2003 by Icon Group International, 2010-03-10
  11. Constant: Webster's Timeline History, 1975 - 1988 by Icon Group International, 2010-03-10
  12. Constant-current: Webster's Timeline History, 1939 - 2007 by Icon Group International, 2010-05-17
  13. Benjamin Constant: Webster's Timeline History, 1767 - 2007 by Icon Group International, 2009-04-16
  14. The Constant Couple: Webster's Timeline History, 1670 - 1999 by Icon Group International, 2009-05-01

21. Constant Function - Math Dictionary
Constant function is a linear function of the form y = b, where b is a constant. It is also written as f(x) = b. The graph of a constant function is a horizontal line.
http://www.icoachmath.com/Sitemap/ConstantFunction.html

22. Pie? 3.14......
Stupid question, but I can't locate the function. I'm calculating the volume of a cylinder and need to use the math. constant pie (3.14 ).
http://www.accessmonster.com/Uwe/Forum.aspx/access-queries/23753/Pie-3-14

23. Math Constants
Mar 31, 2008 Extensive list of basic, derived, and applied mathematical constants divided into several categories.
http://www.ebyte.it/library/educards/constants/MathConstants.html
Mathematical Constants compiled by , Extra Byte, Via R.Sanzio 22C, Castano Primo, Italy 20022
in Stan's Library , Ed.S.Sykora, Vol.II. First release March 31, 2008.
Permalink via DOI: Stan's Library Physics Constants Stan's LINKS Stan's HUB Note: This list is so far rudimentary but it keeps growing and will soon include some categories not covered elsewhere. Basic math constants Circumference of a disc with unit diameter. e, Euler number Base of natural logarithms. limit of [(1+1/2+1/3+...1/n)-ln(n)]. Diagonal of a square with unit side. Derived math constants ln(2), Natural logarithm of 2 e x log(2), Decadic logarithm of 2 x ln(10), Natural logarithm of 10 e x ln (10), Binary logarithm of 10 x log(e), Decadic logarithm of e x = e ln (e), Binary logarithm of e x = e Square root of golden ratio . Relates sides of squares with golden-ratio areas. Square root of inverse golden ratio Cubic root of golden ratio . Relates sides of cubes with golden-ratio volumes. Cubic root of inverse golden ratio Classical, named math constants

24. Special Math Constants: Pi, E, Etc.
Special Math Constants Pi, e, etc. All constants below are given to 100 decimal places. Archimedes' Constant =
http://www.physlink.com/Reference/MathConstants.cfm

25. Millett Sights - Mathematics For Precision Shooters
In use since the days of the excellent 1903 Springfield rifle, this formula is only employed for targets 500 yards or closer, after which the math constant changes
http://www.millettsights.com/resources/shooting-tips/mathematics-for-precision-s
Mathematics For Precision Shooters
Recently my old friend Steve Langford of Millett Sights and I discussed the many formulas, measurements, math shortcuts and rules-of-thumb that are of value to precision shooters. He and I jotted down quite a collection which I'm passing on to you: Equivalents and Conversion Factors These are worth knowing so you can convert units of measurement especially when using a meters-based map or employing a scope that uses metric adjustments.
  • One centimeter equals 10 millimeters One centimeter equals 0.3937 inches To convert centimeters to inches, multiply the inches by 2.54 One inch equals 2.54 centimeters To convert inches to centimeters, multiply the inches by 0.3937 1 Yard equals 0.9144 Meter 100 Yards equals 91.44 Meters To convert yards to meters, multiply the yards by 0.9144 1 Meter equals 1.0936 Yards or 39.37 Inches 100 Meters equals 109.36 Yards To convert meters to yards, multiply the meters by 1.0936

26. EXSLT - Math:constant - Implementer Page
An implementation of this extension function in the EXSLT math namespace must conform to the behaviour described in this document.
http://www.exslt.org/math/functions/constant/math.constant.html

27. Constant Table
A RDBMS table or tables that store definitions of constant values or known abbreviations. It is often not practical to store longer descriptions of various options, so
http://www.c2.com/cgi/wiki?ConstantTable

28. OpenOffice.org Forum :: The Math Constant E
The OpenOffice.org Forum at OOoForum.org is an OpenOffice.org help and discussion forum for exchanging information and tips with other users of OpenOffice.org, the open source
http://www.oooforum.org/forum/viewtopic.phtml?t=31380

29. Kaprekar's Constant -- Math Fun Facts
Kaprekar s Constant. Math Fun Facts. Get the Math Fun Facts iPhone App! For more fun, tour the Mathematics Department at Harvey Mudd College!
http://www.math.hmc.edu/funfacts/ffiles/10002.5-8.shtml
hosted by the Harvey Mudd College Math Department Francis Su The Math Fun Facts App is now in the App Store
Subscribe to our RSS feed or
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From the Fun Fact files, here is a Fun Fact at the Easy level:
Kaprekar's Constant
Take any four digit number (whose digits are not all identical), and do the following:
  • Rearrange the string of digits to form the largest and smallest 4-digit numbers possible.
  • Take these two numbers and subtract the smaller number from the larger.
  • Use the number you obtain and repeat the above process. What happens if you repeat the above process over and over? Let's see... Suppose we choose the number 3141.
    The process eventually hits 6174 and then stays there! But the more amazing thing is this: every four digit number whose digits are not all the same will eventually hit 6174, in at most 7 steps, and then stay there! Presentation Suggestions:
    Remember that if you encounter any numbers with fewer than has fewer 4 digits, it must be treated as though it had 4 digits, using leading zeroes. Example: if you start with 3222 and subtract 2333, then the difference is 0999. The next step would then consider the difference 9990-0999=8991, and so on. You might ask students to investigate what happens for strings of other lengths or in other bases. The Math Behind the Fact:
    Each number in the sequence uniquely determines the next number in the sequence. Since there are only finitely many possibilities, eventually the sequence must return to a number it hit before, leading to a cycle. So any starting number will give a
  • 30. Permittivity/Dielectric Constant Do The Math
    File Format PDF/Adobe Acrobat
    http://www.thetestlab.com/data/nov96.pdf

    31. E (mathematical Constant) - Wikipedia, The Free Encyclopedia
    The mathematical constant e is the unique real number such that the value of the derivative (slope of the tangent line) of the function f (x) = e x at the point x = 0 is equal to 1. The
    http://en.wikipedia.org/wiki/E_(mathematical_constant)
    e (mathematical constant)
    From Wikipedia, the free encyclopedia Jump to: navigation search Part of a series of articles on
    The mathematical constant e Natural logarithm Exponential function Applications in: compound interest Euler's identity Euler's formula half-lives ... decay Defining e: proof that e is irrational representations of e Lindemann–Weierstrass theorem People John Napier Leonhard Euler
    Schanuel's conjecture

    e is the unique number a , such that the value of the derivative (the slope of the tangent line) of the exponential function f x a x (blue curve) at the point x x (dotted curve) and 4 x (dashed curve) are shown; they are not tangent to the line of slope 1 (red). "Euler's number" redirects here. For γ, a constant in number theory, see Euler's constant . For other uses, see List of topics named after Leonhard Euler#Euler—numbers
    The mathematical constant e is the unique real number such that the value of the derivative (slope of the tangent line) of the function f x e x at the point x The function e x so defined is called the exponential function , and its inverse is the natural logarithm , or logarithm to base e . The number e is also commonly defined as the base of the natural logarithm (using an integral to define the latter), as the

    32. Constants
    Some of them are numbers like pi, e, and the golden ratio purely mathematical constants, which anyone with a computer can calculate to as many decimal
    http://math.ucr.edu/home/baez/constants.html
    How Many Fundamental Constants Are There?
    John Baez
    June 15, 2002
    You might at first think that the speed of light, Planck's constant and Newton's gravitational constant are great examples of fundamental physical constants. But in fundamental physics, these constants are so important that lots of people use units where they all equal 1! The point is that we can choose units of length, time and mass however we want. That's three independent choices, so with a little luck we can use them to get our favorite three constants to equal 1. Planck was the first to notice this, so these units are called "Planck units". Planck units are great for quantum gravity. They are not so convenient for other purposes, however. The Planck length, for example, is ridiculously small: about 2 x 10 meters. The Planck time looks even worse: about 5 x 10 seconds. The Planck mass is 2 x 10 kilograms. In ordinary life, and even in nuclear physics, Planck units can be a real nuisance. But in the grand scheme of things, units are not very important. They are arbitrary human conventions. As long as you stick with some choice or other you will do okay.

    33. Constant: Definition, Synonyms From Answers.com
    adj. Continually occurring; persistent. Regularly recurring plagued by constant interruptions. Unchanging in nature, value, or extent; invariable. See synonyms at continual
    http://www.answers.com/topic/constant

    34. Mathematical Constants
    by SR Finch Cited by 210 - Related articles
    http://algo.inria.fr/bsolve/

    35. Math Constant Definition | TutorVista | Web
    Champernowne constant In mathematics, the Champernowne constant C 10 is a transcendental real constant whose decimal expansion has important properties.
    http://www.tutorvista.com/ks/math-constant-definition

    36. C# Math.E Constant
    Here we look at the Math.E constant in the .NET Framework using the C programming language, first seeing an example of the double type and then finding
    http://dotnetperls.com/math-e
    C# Math.E Constant
    You are using the Math class in the System library in your C# program and are wondering what usages exist for the public float value E, which you can access with Math.E. This is a public double type that stores the first digits of the base of the natural logarithm, but does not have enough digits for many usages. Here we look at the Math.E constant in the .NET Framework using the C# programming language, first seeing an example of the double type and then finding ways to use E.
    Using Math.E
    First, to access the Math.E constant you need to use the fully qualified type name "System.Math.E" or else include the using System directive at the top. The constant is encoded as a Float64 type in the framework, which is has a 64-bit data space. The exact value specified in the intermediate language (mscorlib) is float64(2.7182818284590451). This example program prints the Math.E constant. - Program that uses Math.E (C#) - // Get E constant Console.WriteLine("- Math.E -"); Console.WriteLine(e); // Write E constant - Output of the program - - Math.E -

    37. 9.2. Math — Mathematical Functions — Python V2.7 Documentation
    math.e¶ The mathematical constant e = 2.718281 , to available precision. CPython implementation detail The math module consists mostly of thin wrappers
    http://docs.python.org/library/math.html
    Navigation
    math
    This module is always available. It provides access to the mathematical functions defined by the C standard. These functions cannot be used with complex numbers; use the functions of the same name from the cmath The following functions are provided by this module. Except when explicitly noted otherwise, all return values are floats.
    9.2.1. Number-theoretic and representation functions
    math. ceil x
    Return the ceiling of x as a float, the smallest integer value greater than or equal to x
    math. copysign x y
    Return x with the sign of y . On a platform that supports signed zeros, copysign(1.0, returns New in version 2.6.
    math. fabs x
    Return the absolute value of x
    math. factorial x
    Return x factorial. Raises ValueError if x is not integral or is negative. New in version 2.6.
    math. floor x
    Return the floor of x as a float, the largest integer value less than or equal to x
    math. fmod x y
    Return fmod(x, y) , as defined by the platform C library. Note that the Python expression x y may not return the same result. The intent of the C standard is that

    38. 10th Grade Math: Constant Multiple Rule Help
    Video tutorials, worksheets and word problems on constant multiple rule for tenth grade students; their teachers, parents and tutors.
    http://tulyn.com/10th-grade-math/constant-multiple-rule

    39. [math/0304021] Euler's Constant, Q-logarithms, And Formulas Of Ramanujan And Gos
    by J Sondow 2003 - Cited by 13 - Related articles
    http://arxiv.org/abs/math/0304021
    arXiv.org math
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    Mathematics > Number Theory
    Title:
    Authors: Jonathan Sondow (New York), Wadim Zudilin (Moscow) (Submitted on 2 Apr 2003) Abstract: Comments: AmSTeX, 24 pages, submitted for publication Subjects: Number Theory (math.NT) ; Classical Analysis and ODEs (math.CA) MSC classes: Primary 11Y60; Secondary 11J72, 33C20, 33D15 Journal reference: Ramanujan J. 12 (2006) 225-244 DOI Cite as: arXiv:math/0304021v1 [math.NT]
    Submission history
    From: Wadim Zudilin [ view email
    Wed, 2 Apr 2003 13:53:58 GMT (15kb)
    Which authors of this paper are endorsers?
    Link back to: arXiv form interface contact

    40. What Is A Math Constant? | ChaCha Answers
    What is a math constant? ChaCha has the answer A mathematical constant is a number, usually a real number, that arises naturally in mathematics. Thanks fr
    http://www.chacha.com/question/what-is-a-math-constant

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