Description: Lemma for lcfr . (Contributed by NM, 23-Feb-2015) (New usage is discouraged.)
Ref | Expression | ||
---|---|---|---|
Hypotheses | lcf1o.h | |- H = ( LHyp ` K ) |
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lcf1o.o | |- ._|_ = ( ( ocH ` K ) ` W ) |
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lcf1o.u | |- U = ( ( DVecH ` K ) ` W ) |
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lcf1o.v | |- V = ( Base ` U ) |
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lcf1o.a | |- .+ = ( +g ` U ) |
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lcf1o.t | |- .x. = ( .s ` U ) |
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lcf1o.s | |- S = ( Scalar ` U ) |
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lcf1o.r | |- R = ( Base ` S ) |
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lcf1o.z | |- .0. = ( 0g ` U ) |
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lcf1o.f | |- F = ( LFnl ` U ) |
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lcf1o.l | |- L = ( LKer ` U ) |
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lcf1o.d | |- D = ( LDual ` U ) |
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lcf1o.q | |- Q = ( 0g ` D ) |
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lcf1o.c | |- C = { f e. F | ( ._|_ ` ( ._|_ ` ( L ` f ) ) ) = ( L ` f ) } |
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lcf1o.j | |- J = ( x e. ( V \ { .0. } ) |-> ( v e. V |-> ( iota_ k e. R E. w e. ( ._|_ ` { x } ) v = ( w .+ ( k .x. x ) ) ) ) ) |
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lcflo.k | |- ( ph -> ( K e. HL /\ W e. H ) ) |
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lcfrlem10.x | |- ( ph -> X e. ( V \ { .0. } ) ) |
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lcfrlem12.b | |- B = ( 0g ` S ) |
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lcfrlem12.y | |- ( ph -> Y e. ( ._|_ ` { X } ) ) |
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Assertion | lcfrlem12N | |- ( ph -> ( ( J ` X ) ` Y ) = B ) |
Step | Hyp | Ref | Expression |
---|---|---|---|
1 | lcf1o.h | |- H = ( LHyp ` K ) |
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2 | lcf1o.o | |- ._|_ = ( ( ocH ` K ) ` W ) |
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3 | lcf1o.u | |- U = ( ( DVecH ` K ) ` W ) |
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4 | lcf1o.v | |- V = ( Base ` U ) |
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5 | lcf1o.a | |- .+ = ( +g ` U ) |
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6 | lcf1o.t | |- .x. = ( .s ` U ) |
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7 | lcf1o.s | |- S = ( Scalar ` U ) |
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8 | lcf1o.r | |- R = ( Base ` S ) |
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9 | lcf1o.z | |- .0. = ( 0g ` U ) |
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10 | lcf1o.f | |- F = ( LFnl ` U ) |
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11 | lcf1o.l | |- L = ( LKer ` U ) |
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12 | lcf1o.d | |- D = ( LDual ` U ) |
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13 | lcf1o.q | |- Q = ( 0g ` D ) |
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14 | lcf1o.c | |- C = { f e. F | ( ._|_ ` ( ._|_ ` ( L ` f ) ) ) = ( L ` f ) } |
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15 | lcf1o.j | |- J = ( x e. ( V \ { .0. } ) |-> ( v e. V |-> ( iota_ k e. R E. w e. ( ._|_ ` { x } ) v = ( w .+ ( k .x. x ) ) ) ) ) |
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16 | lcflo.k | |- ( ph -> ( K e. HL /\ W e. H ) ) |
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17 | lcfrlem10.x | |- ( ph -> X e. ( V \ { .0. } ) ) |
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18 | lcfrlem12.b | |- B = ( 0g ` S ) |
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19 | lcfrlem12.y | |- ( ph -> Y e. ( ._|_ ` { X } ) ) |
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20 | 1 3 16 | dvhlmod | |- ( ph -> U e. LMod ) |
21 | 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 | lcfrlem10 | |- ( ph -> ( J ` X ) e. F ) |
22 | 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 | lcfrlem11 | |- ( ph -> ( L ` ( J ` X ) ) = ( ._|_ ` { X } ) ) |
23 | 19 22 | eleqtrrd | |- ( ph -> Y e. ( L ` ( J ` X ) ) ) |
24 | 7 18 10 11 | lkrf0 | |- ( ( U e. LMod /\ ( J ` X ) e. F /\ Y e. ( L ` ( J ` X ) ) ) -> ( ( J ` X ) ` Y ) = B ) |
25 | 20 21 23 24 | syl3anc | |- ( ph -> ( ( J ` X ) ` Y ) = B ) |