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MyWikiBiz, Author Your Legacy — Saturday November 30, 2024
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<math>\operatorname{D}</math> is called a "difference operator" because it tells us about the relative change in the value of <math>f\!</math> along the shift from <math>x\!</math> to <math>x + y.\!</math>
 
<math>\operatorname{D}</math> is called a "difference operator" because it tells us about the relative change in the value of <math>f\!</math> along the shift from <math>x\!</math> to <math>x + y.\!</math>
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<pre>
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In practice, one of the variables, <math>x\!</math> or <math>y\!</math>, is often considered to be "less variable" than the other one, being fixed in the context of a concrete discussion. Thus, we might find any one of the following idioms:
In practice, one of the variables, x or y, is often
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considered to be "less variable" than the other one,
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being fixed in the context of a concrete discussion.
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Thus, we might find any one of the following idioms:
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1.  Df : X x X -> Y,
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<blockquote>
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: <math>\operatorname{D}f : X \times X \to Y,</math>
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    Df(c, x) = f(c + x) - f(c).
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: <math>\operatorname{D}f(c, x) = f(c + x) - f(c).</math>
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</blockquote>
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Here, c is held constant and Df(c, x) is regarded
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Here, <math>c\!</math> is held constant and <math>\operatorname{D}f(c, x)</math> is regarded mainly as a function of the second variable <math>x\!</math>, giving the relative change in <math>f\!</math> at various distances <math>x\!</math> from the center <math>c\!</math>.
mainly as a function of the second variable x,
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giving the relative change in f at various
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distances x from the center c.
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2.  Df : X x X -> Y,
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<blockquote>
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: <math>\operatorname{D}f : X \times X \to Y,</math>
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    Df(x, h) = f(x + h) - f(x).
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: <math>\operatorname{D}f(x, h) = f(x + h) - f(x).</math>
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</blockquote>
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Here, h is either a constant (usually 1), in discrete contexts,
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Here, <math>h\!</math> is either a constant (usually 1), in discrete contexts, or a variably "small" amount (near to 0) over which a limit is being taken, as in continuous contexts.  <math>\operatorname{D}f(x, h)</math> is regarded mainly as a function of the first variable <math>x\!</math>, in effect, giving the differences in the value of <math>f\!</math> between <math>x\!</math> and a neighbor that is a distance of <math>h\!</math> away, all the while that <math>x\!</math> itself ranges over its various possible locations.
or a variably "small" amount (near to 0) over which a limit is
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being taken, as in continuous contexts.  Df(x, h) is regarded
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mainly as a function of the first variable x, in effect, giving
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the differences in the value of f between x and a neighbor that
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is a distance of h away, all the while that x itself ranges over
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its various possible locations.
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3.  Df : X x X -> Y,
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<blockquote>
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: <math>\operatorname{D}f : X \times X \to Y,</math>
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    Df(x, dx) = f(x + dx) - f(x).
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: <math>\operatorname{D}f(x, \operatorname{d}x) = f(x + \operatorname{d}x) - f(x).</math>
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</blockquote>
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This is yet another variant of the previous form,
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This is yet another variant of the previous form, with <math>\operatorname{d}x</math> denoting small changes contemplated in <math>x\!</math>.
with dx denoting small changes contemplated in x.
   
   
 
   
That's the basic idea.  The next order of business is to develop
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That's the basic idea.  The next order of business is to develop the logical side of the analogy a bit more fully, and to take up the elaboration of some moderately simple applications of these ideas to a selection of relatively concrete examples.
the logical side of the analogy a bit more fully, and to take up
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the elaboration of some moderately simple applications of these
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ideas to a selection of relatively concrete examples.
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</pre>
      
===Note 2===
 
===Note 2===
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