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leftto
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The answer LEFTTO has 7 possible clue(s) in existing crosswords.
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The word LEFTTO is NOT valid in any word game. (Sorry, you cannot play LEFTTO in Scrabble, Words With Friends etc)
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Definitions of leftto in various dictionaries:
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Keep reading for additional results and analysis below.
| Possible Crossword Clues |
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| Reserved for |
| Gave, as in a will |
| 'Willingly inherited what one has no right to? (4,2)' |
| Given willingly? |
| Given in a bequest |
| Given via a will |
| Gave, as by a bequest |
| Leftto might refer to |
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In mathematics, a Multivalued function from a domain X to a codomain Y is a heterogeneous relation. However, in some contexts such as the complex plane (X = Y = ℂ), authors prefer to mimic function theory as they extend concepts of the ordinary (single-valued) functions. * In this context, an ordinary function is often called a single-valued function to avoid confusion. * The term multivalued function originated in complex analysis, from analytic continuation. It often occurs that one knows the value of a complex analytic function * * * * f * ( * z * ) * * * {\displaystyle f(z)} * in some neighbourhood of a point * * * * z * = * a * * * {\displaystyle z=a} * . This is the case for functions defined by the implicit function theorem or by a Taylor series around * * * * z * = * a * * * {\displaystyle z=a} * . In such a situation, one may extend the domain of the single-valued function * * * * f * ( * z * ) * * * {\displaystyle f(z)} * along curves in the complex plane starting at * * * * a * * * {\displaystyle a} * . In doing so, one finds that the value of the extended function at a point * * * * z * = * b * * * {\displaystyle z=b} * depends on the chosen curve from * * * * a * * * {\displaystyle a} * to * * * * b * * * {\displaystyle b} * ; since none of the new values is more natural than the others, all of them are incorporated into a multivalued function. For example, let * * * * f * ( * z * ) * = * * * z * * * * * * {\displaystyle f(z)={\sqrt {z}}\,} * be the usual square root function on positive real numbers. One may extend its domain to a neighbourhood of * * * * z * = * 1 * * * {\displaystyle z=1} * in the complex plane, and then further along curves starting at * * * * z * = * 1 * * * {\displaystyle z=1} * , so that the values along a given curve vary continuously from * * * * * * 1 * * * = * 1 * * * {\displaystyle {\sqrt {1}}=1} * . Extending to negative real numbers, one gets two opposite values of the square root such as * * * * * * − * 1 * * * = * ± * i * * * {\displaystyle {\sqrt {-1}}=\pm i} * , depending on whether the domain has been extended through the upper or the lower half of the complex plane. This phenomenon is very frequent, occurring for nth roots, logarithms and inverse trigonometric functions. * To define a single-valued function from a complex multivalued function, one may distinguish one of the... |