let NR, MR be Matrix of 3,REAL; for p1, p2, p3 being FinSequence of REAL st p1 = <*1,0,0*> & p2 = <*0,1,0*> & p3 = <*0,0,1*> & NR * p1 = MR * p1 & NR * p2 = MR * p2 & NR * p3 = MR * p3 holds
NR = MR
let p1, p2, p3 be FinSequence of REAL ; ( p1 = <*1,0,0*> & p2 = <*0,1,0*> & p3 = <*0,0,1*> & NR * p1 = MR * p1 & NR * p2 = MR * p2 & NR * p3 = MR * p3 implies NR = MR )
assume that
A1:
( p1 = <*1,0,0*> & p2 = <*0,1,0*> & p3 = <*0,0,1*> )
and
A2:
NR * p1 = MR * p1
and
A3:
NR * p2 = MR * p2
and
A4:
NR * p3 = MR * p3
; NR = MR
reconsider N = NR, M = MR as Matrix of 3,F_Real ;
consider n11, n12, n13, n21, n22, n23, n31, n32, n33 being Element of F_Real such that
A5:
N = <*<*n11,n12,n13*>,<*n21,n22,n23*>,<*n31,n32,n33*>*>
by PASCAL:3;
consider m11, m12, m13, m21, m22, m23, m31, m32, m33 being Element of F_Real such that
A6:
M = <*<*m11,m12,m13*>,<*m21,m22,m23*>,<*m31,m32,m33*>*>
by PASCAL:3;
reconsider rn11 = n11, rn12 = n12, rn13 = n13, rn21 = n21, rn22 = n22, rn23 = n23, rn31 = n31, rn32 = n32, rn33 = n33 as Element of REAL ;
reconsider rm11 = m11, rm12 = m12, rm13 = m13, rm21 = m21, rm22 = m22, rm23 = m23, rm31 = m31, rm32 = m32, rm33 = m33 as Element of REAL ;
|[1,0,0]| in TOP-REAL 3
;
then reconsider q1 = <*1,0,0*> as FinSequence of REAL by EUCLID:24;
reconsider z1 = q1 . 1, z2 = q1 . 2, z3 = q1 . 3 as Element of REAL by XREAL_0:def 1;
( NR = <*<*rn11,rn12,rn13*>,<*rn21,rn22,rn23*>,<*rn31,rn32,rn33*>*> & q1 = <*z1,z2,z3*> )
by A5;
then A10: NR * q1 =
<*(((rn11 * z1) + (rn12 * z2)) + (rn13 * z3)),(((rn21 * z1) + (rn22 * z2)) + (rn23 * z3)),(((rn31 * z1) + (rn32 * z2)) + (rn33 * z3))*>
by PASCAL:9
.=
<*rn11,rn21,rn31*>
;
( MR = <*<*rm11,rm12,rm13*>,<*rm21,rm22,rm23*>,<*rm31,rm32,rm33*>*> & q1 = <*z1,z2,z3*> )
by A6;
then MR * q1 =
<*(((rm11 * z1) + (rm12 * z2)) + (rm13 * z3)),(((rm21 * z1) + (rm22 * z2)) + (rm23 * z3)),(((rm31 * z1) + (rm32 * z2)) + (rm33 * z3))*>
by PASCAL:9
.=
<*rm11,rm21,rm31*>
;
then A11:
( rn11 = rm11 & rn21 = rm21 & rn31 = rm31 )
by A10, A2, A1, FINSEQ_1:78;
|[0,1,0]| in TOP-REAL 3
;
then reconsider q1 = <*0,1,0*> as FinSequence of REAL by EUCLID:24;
reconsider z1 = q1 . 1, z2 = q1 . 2, z3 = q1 . 3 as Element of REAL by XREAL_0:def 1;
( NR = <*<*rn11,rn12,rn13*>,<*rn21,rn22,rn23*>,<*rn31,rn32,rn33*>*> & q1 = <*z1,z2,z3*> )
by A5;
then A15: NR * q1 =
<*(((rn11 * z1) + (rn12 * z2)) + (rn13 * z3)),(((rn21 * z1) + (rn22 * z2)) + (rn23 * z3)),(((rn31 * z1) + (rn32 * z2)) + (rn33 * z3))*>
by PASCAL:9
.=
<*rn12,rn22,rn32*>
;
( MR = <*<*rm11,rm12,rm13*>,<*rm21,rm22,rm23*>,<*rm31,rm32,rm33*>*> & q1 = <*z1,z2,z3*> )
by A6;
then MR * q1 =
<*(((rm11 * z1) + (rm12 * z2)) + (rm13 * z3)),(((rm21 * z1) + (rm22 * z2)) + (rm23 * z3)),(((rm31 * z1) + (rm32 * z2)) + (rm33 * z3))*>
by PASCAL:9
.=
<*rm12,rm22,rm32*>
;
then A16:
( rn12 = rm12 & rn22 = rm22 & rn32 = rm32 )
by A15, A3, A1, FINSEQ_1:78;
|[0,0,1]| in TOP-REAL 3
;
then reconsider q1 = <*0,0,1*> as FinSequence of REAL by EUCLID:24;
reconsider z1 = q1 . 1, z2 = q1 . 2, z3 = q1 . 3 as Element of REAL by XREAL_0:def 1;
( NR = <*<*rn11,rn12,rn13*>,<*rn21,rn22,rn23*>,<*rn31,rn32,rn33*>*> & q1 = <*z1,z2,z3*> )
by A5;
then A20: NR * q1 =
<*(((rn11 * z1) + (rn12 * z2)) + (rn13 * z3)),(((rn21 * z1) + (rn22 * z2)) + (rn23 * z3)),(((rn31 * z1) + (rn32 * z2)) + (rn33 * z3))*>
by PASCAL:9
.=
<*rn13,rn23,rn33*>
;
( MR = <*<*rm11,rm12,rm13*>,<*rm21,rm22,rm23*>,<*rm31,rm32,rm33*>*> & q1 = <*z1,z2,z3*> )
by A6;
then MR * q1 =
<*(((rm11 * z1) + (rm12 * z2)) + (rm13 * z3)),(((rm21 * z1) + (rm22 * z2)) + (rm23 * z3)),(((rm31 * z1) + (rm32 * z2)) + (rm33 * z3))*>
by PASCAL:9
.=
<*rm13,rm23,rm33*>
;
then
( rn13 = rm13 & rn23 = rm23 & rn33 = rm33 )
by A20, A4, A1, FINSEQ_1:78;
hence
NR = MR
by A11, A16, A5, A6; verum