let r, s, t be real number ; :: thesis: ( r <= s & 0 <= t implies r * t <= s * t )
reconsider x1 = r, y1 = s, z1 = t as Element of REAL by Def1;
assume that
A1: r <= s and
A2: 0 <= t ; :: thesis: r * t <= s * t
not o in [:{0 },REAL+ :] by ARYTM_0:5, XBOOLE_0:3;
then A3: t in REAL+ by A2, XXREAL_0:def 5;
for x9 being Element of REAL
for r being real number st x9 = r holds
* x9,z1 = r * t
proof
let x9 be Element of REAL ; :: thesis: for r being real number st x9 = r holds
* x9,z1 = r * t
let r be real number ; :: thesis: ( x9 = r implies * x9,z1 = r * t )
assume A4: x9 = r ; :: thesis: * x9,z1 = r * t
consider x1, x2, y1, y2 being Element of REAL such that
A5: r = [*x1,x2*] and
A6: t = [*y1,y2*] and
A7: r * t = [*(+ (* x1,y1),(opp (* x2,y2))),(+ (* x1,y2),(* x2,y1))*] by XCMPLX_0:def 5;
x2 = 0 by A5, Lm1;
then A8: * x2,y1 = 0 by ARYTM_0:14;
A9: y2 = 0 by A6, Lm1;
then * x1,y2 = 0 by ARYTM_0:14;
then A10: + (* x1,y2),(* x2,y1) = 0 by A8, ARYTM_0:13;
( r = x1 & t = y1 ) by A5, A6, Lm1;
hence * x9,z1 = + (* x1,y1),(* (opp x2),y2) by A4, A9, ARYTM_0:13, ARYTM_0:14
.= + (* x1,y1),(opp (* x2,y2)) by ARYTM_0:17
.= r * t by A7, A10, ARYTM_0:def 7 ;
:: thesis: verum
end;
then A11: ( * y1,z1 = s * t & * x1,z1 = r * t ) ;
assume A12: not r * t <= s * t ; :: thesis: contradiction
then A13: t <> 0 ;
per cases ( ( r in REAL+ & s in REAL+ ) or ( r in [:{0 },REAL+ :] & s in REAL+ ) or ( r in [:{0 },REAL+ :] & s in [:{0 },REAL+ :] ) ) by A1, XXREAL_0:def 5;
suppose that A14: r in REAL+ and
A15: s in REAL+ ; :: thesis: contradiction
consider s9, t99 being Element of REAL+ such that
A16: s = s9 and
A17: ( t = t99 & * y1,z1 = s9 *' t99 ) by A3, A15, ARYTM_0:def 3;
consider x9, t9 being Element of REAL+ such that
A18: r = x9 and
A19: ( t = t9 & * x1,z1 = x9 *' t9 ) by A3, A14, ARYTM_0:def 3;
ex x99, s99 being Element of REAL+ st
( r = x99 & s = s99 & x99 <=' s99 ) by A1, A14, A15, XXREAL_0:def 5;
then x9 *' t9 <=' s9 *' t9 by A18, A16, ARYTM_1:8;
hence contradiction by A11, A12, A19, A17, Lm2; :: thesis: verum
end;
suppose that A20: r in [:{0 },REAL+ :] and
A21: s in REAL+ ; :: thesis: contradiction
ex x9, t9 being Element of REAL+ st
( r = [0 ,x9] & t = t9 & * x1,z1 = [0 ,(t9 *' x9)] ) by A3, A13, A20, ARYTM_0:def 3;
then * x1,z1 in [:{0 },REAL+ :] by Lm3, ZFMISC_1:106;
then A22: not * x1,z1 in REAL+ by ARYTM_0:5, XBOOLE_0:3;
ex s9, t99 being Element of REAL+ st
( s = s9 & t = t99 & * y1,z1 = s9 *' t99 ) by A3, A21, ARYTM_0:def 3;
then not * y1,z1 in [:{0 },REAL+ :] by ARYTM_0:5, XBOOLE_0:3;
hence contradiction by A11, A12, A22, XXREAL_0:def 5; :: thesis: verum
end;
suppose that A23: r in [:{0 },REAL+ :] and
A24: s in [:{0 },REAL+ :] ; :: thesis: contradiction
consider s9, t99 being Element of REAL+ such that
A25: s = [0 ,s9] and
A26: t = t99 and
A27: * y1,z1 = [0 ,(t99 *' s9)] by A3, A13, A24, ARYTM_0:def 3;
A28: * y1,z1 in [:{0 },REAL+ :] by A27, Lm3, ZFMISC_1:106;
consider x99, s99 being Element of REAL+ such that
A29: r = [0 ,x99] and
A30: s = [0 ,s99] and
A31: s99 <=' x99 by A1, A23, A24, XXREAL_0:def 5;
A32: s9 = s99 by A30, A25, ZFMISC_1:33;
consider x9, t9 being Element of REAL+ such that
A33: r = [0 ,x9] and
A34: t = t9 and
A35: * x1,z1 = [0 ,(t9 *' x9)] by A3, A13, A23, ARYTM_0:def 3;
A36: * x1,z1 in [:{0 },REAL+ :] by A35, Lm3, ZFMISC_1:106;
x9 = x99 by A29, A33, ZFMISC_1:33;
then s9 *' t9 <=' x9 *' t9 by A31, A32, ARYTM_1:8;
hence contradiction by A11, A12, A34, A35, A26, A27, A36, A28, Lm2; :: thesis: verum
end;
end;