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Theorem rellindf 21918
Description: The independent-family predicate is a proper relation and can be used with brrelex1i 5708. (Contributed by Stefan O'Rear, 24-Feb-2015.)
Assertion
Ref Expression
rellindf Rel LIndF

Proof of Theorem rellindf
Dummy variables 𝑓 𝑘 𝑠 𝑤 𝑥 are mutually distinct and distinct from all other variables.
StepHypRef Expression
1 df-lindf 21916 . 2 LIndF = {⟨𝑓, 𝑤⟩ ∣ (𝑓:dom 𝑓⟶(Base‘𝑤) ∧ [(Scalar‘𝑤) / 𝑠]𝑥 ∈ dom 𝑓𝑘 ∈ ((Base‘𝑠) ∖ {(0g𝑠)}) ¬ (𝑘( ·𝑠𝑤)(𝑓𝑥)) ∈ ((LSpan‘𝑤)‘(𝑓 “ (dom 𝑓 ∖ {𝑥}))))}
21relopabiv 5798 1 Rel LIndF
Colors of variables: wff setvar class
Syntax hints:  ¬ wn 3  wa 400  wcel 2145  wral 3079  [wsbc 3747  cdif 3904  {csn 4585  dom cdm 5652  cima 5655  Rel wrel 5657  wf 6521  cfv 6525  (class class class)co 7400  Basecbs 17259  Scalarcsca 17303   ·𝑠 cvsca 17304  0gc0g 17482  LSpanclspn 21061   LIndF clindf 21914
This theorem was proved from axioms:  ax-mp 5  ax-1 6  ax-2 7  ax-3 8  ax-gen 1818  ax-4 1832  ax-5 1933  ax-6 1990  ax-7 2031  ax-8 2147  ax-9 2155  ax-ext 2737
This theorem depends on definitions:  df-bi 210  df-an 401  df-tru 1566  df-ex 1803  df-sb 2094  df-clab 2744  df-cleq 2757  df-clel 2840  df-v 3459  df-ss 3924  df-opab 5168  df-xp 5658  df-rel 5659  df-lindf 21916
This theorem is referenced by:  lindff  21925  lindfind  21926  f1lindf  21932  lindfmm  21937  lsslindf  21940
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