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  • ...acting on a set <math>S</math>, we say that <math>\times</math> has the '''distributive property''' over <math>+</math> (or <math>\times</math> ''distributes over' Key Note - This isn't an example of the Distributive Property!
    2 KB (267 words) - 09:13, 23 July 2020
  • Given any [[set]] <math>S</math>, the '''boolean lattice''' <math>B(S)</math> is a [[partially ordered set]] whose elements are thos ...Thus, the set <math>S = \{1, 2, 3\}</math> is associated with the boolean lattice <math>B_3</math> with elements <math>\emptyset, \{1\}, \{2\}, \{3\}, \{1, 2
    1 KB (168 words) - 21:46, 20 April 2008
  • ...th> square with side length <math>4</math>. There are <math>3</math> other lattice points along the side of the <math>A</math> square, not counting the vertic By distributive property, the expression becomes
    15 KB (2,229 words) - 02:36, 4 September 2021
  • ...aged with" operation: <math>a @ b = (a+b)/2</math>. Which of the following distributive laws hold for all numbers <math>x, y,</math> and <math>z</math>? <cmath>\te .../math> are integers. The graph of <math>y = mx +2</math> passes through no lattice point with <math>0 < x \le 100</math> for all <math>m</math> such that <mat
    13 KB (2,090 words) - 17:05, 7 January 2021
  • ...rst step in finding the product <math>(3x + 2)(x - 5)</math> by use of the distributive property in the form <math>a(b + c) = ab + ac</math> is: We define a lattice point as a point whose coordinates are integers, zero admitted.
    26 KB (3,952 words) - 10:55, 27 July 2024