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lefactio
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The answer LEFACTIO has 0 possible clue(s) in existing crosswords.
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There are 8 letters in LEFACTIO ( A1C3E1F4I1L1O1T1 )
To search all scrabble anagrams of LEFACTIO, to go: LEFACTIO?
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5 letters out of LEFACTIO
4 letters out of LEFACTIO
ALEC
ALEF
ALIF
ALIT
ALOE
ALTO
CAFE
CALF
CALO
CATE
CEIL
CELT
CIAO
CITE
CLEF
CLOT
COAL
COAT
COFT
COIF
COIL
COLA
COLE
COLT
COTE
ETIC
FACE
FACT
FAIL
FATE
FEAL
FEAT
FELT
FETA
FIAT
FICE
FICO
FILA
FILE
FILO
FLAT
FLEA
FLIC
FLIT
FLOC
FLOE
FOAL
FOCI
FOIL
ILEA
IOTA
LACE
LAIC
LATE
LATI
LEAF
LEFT
LICE
LIEF
LIFE
LIFT
LITE
LOAF
LOCA
LOCI
LOFT
LOTA
LOTI
OLEA
OTIC
TACE
TACO
TAEL
TAIL
TALC
TALE
TALI
TEAL
TELA
TILE
TOEA
TOIL
TOLA
TOLE
3 letters out of LEFACTIO
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Definitions of lefactio in various dictionaries:
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| Lefactio might refer to |
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In mathematics, an action of a group is a formal way of interpreting the manner in which the elements of the group correspond to transformations of some space in a way that preserves the structure of that space. Common examples of spaces that groups act on are sets, vector spaces, and topological spaces. Actions of groups on vector spaces are called representations of the group. * When there is a natural correspondence between the set of group elements and the set of space transformations, a group can be interpreted as acting on the space in a canonical way. For example, the symmetric group of a finite set consists of all bijective transformations of that set; thus, applying any element of the permutation group to an element of the set will produce another (not necessarily distinct) element of the set. More generally, symmetry groups such as the homeomorphism group of a topological space or the general linear group of a vector space, as well as their subgroups, also admit canonical actions. For other groups, an interpretation of the group in terms of an action may have to be specified, either because the group does not act canonically on any space or because the canonical action is not the action of interest. For example, we can specify an action of the two-element cyclic group * * * * * * C * * * 2 * * * = * { * 0 * , * 1 * } * * * {\displaystyle \mathrm {C} _{2}=\{0,1\}} * on the finite set * * * * { * a * , * b * , * c * } * * * {\displaystyle \{a,b,c\}} * by specifying that 0 (the identity element) sends * * * * a * ↦ * a * , * b * ↦ * b * , * c * ↦ * c * * * {\displaystyle a\mapsto a,b\mapsto b,c\mapsto c} * , and that 1 sends * * * * a * ↦ * b * , * b * ↦ * a * , * c * ↦ * c * * * {\displaystyle a\mapsto b,b\mapsto a,c\mapsto c} * . This action is not canonical. * A common way of specifying non-canonical actions is to describe a homomorphism * * * * φ * * * {\displaystyle \varphi } * from a group G to the group of symmetries of a set X. The action of an element * * * * g * ∈ * G * * * {\displaystyle g\in G} * on a point * * * * x * ∈ * X * * * {\displaystyle x\in X} * is assumed to be identical to the action of its image * * * * φ * ( * g * ) * ∈ * * Sym * * ( * X * ) * * * {\displaystyle \varphi (g)\in {\text{Sym}}(X)} * on the point * * * * x * * * {\displaystyle x} * . The homomorphism * * * * φ * * * {\displayst... |