Metamath Proof Explorer


Theorem hdmap1l6i

Description: Lemmma for hdmap1l6 . Eliminate auxiliary vector w . (Contributed by NM, 1-May-2015)

Ref Expression
Hypotheses hdmap1l6.h
|- H = ( LHyp ` K )
hdmap1l6.u
|- U = ( ( DVecH ` K ) ` W )
hdmap1l6.v
|- V = ( Base ` U )
hdmap1l6.p
|- .+ = ( +g ` U )
hdmap1l6.s
|- .- = ( -g ` U )
hdmap1l6c.o
|- .0. = ( 0g ` U )
hdmap1l6.n
|- N = ( LSpan ` U )
hdmap1l6.c
|- C = ( ( LCDual ` K ) ` W )
hdmap1l6.d
|- D = ( Base ` C )
hdmap1l6.a
|- .+b = ( +g ` C )
hdmap1l6.r
|- R = ( -g ` C )
hdmap1l6.q
|- Q = ( 0g ` C )
hdmap1l6.l
|- L = ( LSpan ` C )
hdmap1l6.m
|- M = ( ( mapd ` K ) ` W )
hdmap1l6.i
|- I = ( ( HDMap1 ` K ) ` W )
hdmap1l6.k
|- ( ph -> ( K e. HL /\ W e. H ) )
hdmap1l6.f
|- ( ph -> F e. D )
hdmap1l6cl.x
|- ( ph -> X e. ( V \ { .0. } ) )
hdmap1l6.mn
|- ( ph -> ( M ` ( N ` { X } ) ) = ( L ` { F } ) )
hdmap1l6i.xn
|- ( ph -> -. X e. ( N ` { Y , Z } ) )
hdmap1l6i.y
|- ( ph -> Y e. ( V \ { .0. } ) )
hdmap1l6i.z
|- ( ph -> Z e. ( V \ { .0. } ) )
hdmap1l6i.yz
|- ( ph -> ( N ` { Y } ) = ( N ` { Z } ) )
Assertion hdmap1l6i
|- ( ph -> ( I ` <. X , F , ( Y .+ Z ) >. ) = ( ( I ` <. X , F , Y >. ) .+b ( I ` <. X , F , Z >. ) ) )

Proof

Step Hyp Ref Expression
1 hdmap1l6.h
 |-  H = ( LHyp ` K )
2 hdmap1l6.u
 |-  U = ( ( DVecH ` K ) ` W )
3 hdmap1l6.v
 |-  V = ( Base ` U )
4 hdmap1l6.p
 |-  .+ = ( +g ` U )
5 hdmap1l6.s
 |-  .- = ( -g ` U )
6 hdmap1l6c.o
 |-  .0. = ( 0g ` U )
7 hdmap1l6.n
 |-  N = ( LSpan ` U )
8 hdmap1l6.c
 |-  C = ( ( LCDual ` K ) ` W )
9 hdmap1l6.d
 |-  D = ( Base ` C )
10 hdmap1l6.a
 |-  .+b = ( +g ` C )
11 hdmap1l6.r
 |-  R = ( -g ` C )
12 hdmap1l6.q
 |-  Q = ( 0g ` C )
13 hdmap1l6.l
 |-  L = ( LSpan ` C )
14 hdmap1l6.m
 |-  M = ( ( mapd ` K ) ` W )
15 hdmap1l6.i
 |-  I = ( ( HDMap1 ` K ) ` W )
16 hdmap1l6.k
 |-  ( ph -> ( K e. HL /\ W e. H ) )
17 hdmap1l6.f
 |-  ( ph -> F e. D )
18 hdmap1l6cl.x
 |-  ( ph -> X e. ( V \ { .0. } ) )
19 hdmap1l6.mn
 |-  ( ph -> ( M ` ( N ` { X } ) ) = ( L ` { F } ) )
20 hdmap1l6i.xn
 |-  ( ph -> -. X e. ( N ` { Y , Z } ) )
21 hdmap1l6i.y
 |-  ( ph -> Y e. ( V \ { .0. } ) )
22 hdmap1l6i.z
 |-  ( ph -> Z e. ( V \ { .0. } ) )
23 hdmap1l6i.yz
 |-  ( ph -> ( N ` { Y } ) = ( N ` { Z } ) )
24 18 eldifad
 |-  ( ph -> X e. V )
25 21 eldifad
 |-  ( ph -> Y e. V )
26 1 2 3 7 16 24 25 dvh3dim
 |-  ( ph -> E. w e. V -. w e. ( N ` { X , Y } ) )
27 16 3ad2ant1
 |-  ( ( ph /\ w e. V /\ -. w e. ( N ` { X , Y } ) ) -> ( K e. HL /\ W e. H ) )
28 17 3ad2ant1
 |-  ( ( ph /\ w e. V /\ -. w e. ( N ` { X , Y } ) ) -> F e. D )
29 18 3ad2ant1
 |-  ( ( ph /\ w e. V /\ -. w e. ( N ` { X , Y } ) ) -> X e. ( V \ { .0. } ) )
30 19 3ad2ant1
 |-  ( ( ph /\ w e. V /\ -. w e. ( N ` { X , Y } ) ) -> ( M ` ( N ` { X } ) ) = ( L ` { F } ) )
31 20 3ad2ant1
 |-  ( ( ph /\ w e. V /\ -. w e. ( N ` { X , Y } ) ) -> -. X e. ( N ` { Y , Z } ) )
32 23 3ad2ant1
 |-  ( ( ph /\ w e. V /\ -. w e. ( N ` { X , Y } ) ) -> ( N ` { Y } ) = ( N ` { Z } ) )
33 21 3ad2ant1
 |-  ( ( ph /\ w e. V /\ -. w e. ( N ` { X , Y } ) ) -> Y e. ( V \ { .0. } ) )
34 22 3ad2ant1
 |-  ( ( ph /\ w e. V /\ -. w e. ( N ` { X , Y } ) ) -> Z e. ( V \ { .0. } ) )
35 eqid
 |-  ( LSubSp ` U ) = ( LSubSp ` U )
36 1 2 16 dvhlmod
 |-  ( ph -> U e. LMod )
37 36 3ad2ant1
 |-  ( ( ph /\ w e. V /\ -. w e. ( N ` { X , Y } ) ) -> U e. LMod )
38 3 35 7 36 24 25 lspprcl
 |-  ( ph -> ( N ` { X , Y } ) e. ( LSubSp ` U ) )
39 38 3ad2ant1
 |-  ( ( ph /\ w e. V /\ -. w e. ( N ` { X , Y } ) ) -> ( N ` { X , Y } ) e. ( LSubSp ` U ) )
40 simp2
 |-  ( ( ph /\ w e. V /\ -. w e. ( N ` { X , Y } ) ) -> w e. V )
41 simp3
 |-  ( ( ph /\ w e. V /\ -. w e. ( N ` { X , Y } ) ) -> -. w e. ( N ` { X , Y } ) )
42 6 35 37 39 40 41 lssneln0
 |-  ( ( ph /\ w e. V /\ -. w e. ( N ` { X , Y } ) ) -> w e. ( V \ { .0. } ) )
43 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 27 28 29 30 31 32 33 34 42 41 hdmap1l6h
 |-  ( ( ph /\ w e. V /\ -. w e. ( N ` { X , Y } ) ) -> ( I ` <. X , F , ( Y .+ Z ) >. ) = ( ( I ` <. X , F , Y >. ) .+b ( I ` <. X , F , Z >. ) ) )
44 43 rexlimdv3a
 |-  ( ph -> ( E. w e. V -. w e. ( N ` { X , Y } ) -> ( I ` <. X , F , ( Y .+ Z ) >. ) = ( ( I ` <. X , F , Y >. ) .+b ( I ` <. X , F , Z >. ) ) ) )
45 26 44 mpd
 |-  ( ph -> ( I ` <. X , F , ( Y .+ Z ) >. ) = ( ( I ` <. X , F , Y >. ) .+b ( I ` <. X , F , Z >. ) ) )