| height="40" | <math>\mathfrak{W} = \operatorname{Mat}(W) = \operatorname{Mat}(\mathrm{w}) = (\mathfrak{W}_x)</math> is the 1-dimensional matrix representation of the set <math>W\!</math> and the term <math>\mathrm{w}.\!</math>
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| height="40" | <math>\mathfrak{W} = (\mathfrak{W}_x) = \operatorname{Mat}(W) = \operatorname{Mat}(\mathrm{w})</math> is the 1-dimensional matrix representation of the set <math>W\!</math> and the term <math>\mathrm{w}.\!</math>
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| height="40" | <math>\mathfrak{L} = \operatorname{Mat}(L) = \operatorname{Mat}(\mathit{l}) = (\mathfrak{L}_{xy})</math> is the 2-dimensional matrix representation of the relation <math>L\!</math> and the relative term <math>\mathit{l}.\!</math>
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| height="40" | <math>\mathfrak{L} = (\mathfrak{L}_{xy}) = \operatorname{Mat}(L) = \operatorname{Mat}(\mathit{l})</math> is the 2-dimensional matrix representation of the relation <math>L\!</math> and the relative term <math>\mathit{l}.\!</math>
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| height="40" | <math>\mathfrak{S} = \operatorname{Mat}(S) = \operatorname{Mat}(\mathit{s}) = (\mathfrak{S}_{xy})</math> is the 2-dimensional matrix representaion of the relation <math>S\!</math> and the relative term <math>\mathit{s}.\!</math>
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| height="40" | <math>\mathfrak{S} = (\mathfrak{S}_{xy}) = \operatorname{Mat}(S) = \operatorname{Mat}(\mathit{s})</math> is the 2-dimensional matrix representaion of the relation <math>S\!</math> and the relative term <math>\mathit{s}.\!</math>