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Theorem m1m1sr 8901
Description: Minus one times minus one is plus one for signed reals. (Contributed by NM, 14-May-1996.) (New usage is discouraged.)
Assertion
Ref Expression
m1m1sr  |-  ( -1R 
.R  -1R )  =  1R

Proof of Theorem m1m1sr
StepHypRef Expression
1 df-m1r 8874 . . 3  |-  -1R  =  [ <. 1P ,  ( 1P  +P.  1P )
>. ]  ~R
21, 1oveq12i 6032 . 2  |-  ( -1R 
.R  -1R )  =  ( [ <. 1P ,  ( 1P  +P.  1P )
>. ]  ~R  .R  [ <. 1P ,  ( 1P 
+P.  1P ) >. ]  ~R  )
3 df-1r 8873 . . 3  |-  1R  =  [ <. ( 1P  +P.  1P ) ,  1P >. ]  ~R
4 1pr 8825 . . . . 5  |-  1P  e.  P.
5 addclpr 8828 . . . . . 6  |-  ( ( 1P  e.  P.  /\  1P  e.  P. )  -> 
( 1P  +P.  1P )  e.  P. )
64, 4, 5mp2an 654 . . . . 5  |-  ( 1P 
+P.  1P )  e.  P.
7 mulsrpr 8884 . . . . 5  |-  ( ( ( 1P  e.  P.  /\  ( 1P  +P.  1P )  e.  P. )  /\  ( 1P  e.  P.  /\  ( 1P  +P.  1P )  e.  P. )
)  ->  ( [ <. 1P ,  ( 1P 
+P.  1P ) >. ]  ~R  .R 
[ <. 1P ,  ( 1P  +P.  1P )
>. ]  ~R  )  =  [ <. ( ( 1P 
.P.  1P )  +P.  (
( 1P  +P.  1P )  .P.  ( 1P  +P.  1P ) ) ) ,  ( ( 1P  .P.  ( 1P  +P.  1P ) )  +P.  ( ( 1P  +P.  1P )  .P.  1P ) )
>. ]  ~R  )
84, 6, 4, 6, 7mp4an 655 . . . 4  |-  ( [
<. 1P ,  ( 1P 
+P.  1P ) >. ]  ~R  .R 
[ <. 1P ,  ( 1P  +P.  1P )
>. ]  ~R  )  =  [ <. ( ( 1P 
.P.  1P )  +P.  (
( 1P  +P.  1P )  .P.  ( 1P  +P.  1P ) ) ) ,  ( ( 1P  .P.  ( 1P  +P.  1P ) )  +P.  ( ( 1P  +P.  1P )  .P.  1P ) )
>. ]  ~R
9 addasspr 8832 . . . . . 6  |-  ( ( 1P  +P.  1P )  +P.  ( ( 1P 
.P.  ( 1P  +P.  1P ) )  +P.  (
( 1P  +P.  1P )  .P.  1P ) ) )  =  ( 1P 
+P.  ( 1P  +P.  ( ( 1P  .P.  ( 1P  +P.  1P ) )  +P.  ( ( 1P  +P.  1P )  .P.  1P ) ) ) )
10 1idpr 8839 . . . . . . . . 9  |-  ( 1P  e.  P.  ->  ( 1P  .P.  1P )  =  1P )
114, 10ax-mp 8 . . . . . . . 8  |-  ( 1P 
.P.  1P )  =  1P
12 distrpr 8838 . . . . . . . . 9  |-  ( ( 1P  +P.  1P )  .P.  ( 1P  +P.  1P ) )  =  ( ( ( 1P  +P.  1P )  .P.  1P )  +P.  ( ( 1P 
+P.  1P )  .P.  1P ) )
13 mulcompr 8833 . . . . . . . . . 10  |-  ( 1P 
.P.  ( 1P  +P.  1P ) )  =  ( ( 1P  +P.  1P )  .P.  1P )
1413oveq1i 6030 . . . . . . . . 9  |-  ( ( 1P  .P.  ( 1P 
+P.  1P ) )  +P.  ( ( 1P  +P.  1P )  .P.  1P ) )  =  ( ( ( 1P  +P.  1P )  .P.  1P )  +P.  ( ( 1P  +P.  1P )  .P.  1P ) )
1512, 14eqtr4i 2410 . . . . . . . 8  |-  ( ( 1P  +P.  1P )  .P.  ( 1P  +P.  1P ) )  =  ( ( 1P  .P.  ( 1P  +P.  1P ) )  +P.  ( ( 1P 
+P.  1P )  .P.  1P ) )
1611, 15oveq12i 6032 . . . . . . 7  |-  ( ( 1P  .P.  1P )  +P.  ( ( 1P 
+P.  1P )  .P.  ( 1P  +P.  1P ) ) )  =  ( 1P 
+P.  ( ( 1P 
.P.  ( 1P  +P.  1P ) )  +P.  (
( 1P  +P.  1P )  .P.  1P ) ) )
1716oveq2i 6031 . . . . . 6  |-  ( 1P 
+P.  ( ( 1P 
.P.  1P )  +P.  (
( 1P  +P.  1P )  .P.  ( 1P  +P.  1P ) ) ) )  =  ( 1P  +P.  ( 1P  +P.  ( ( 1P  .P.  ( 1P 
+P.  1P ) )  +P.  ( ( 1P  +P.  1P )  .P.  1P ) ) ) )
189, 17eqtr4i 2410 . . . . 5  |-  ( ( 1P  +P.  1P )  +P.  ( ( 1P 
.P.  ( 1P  +P.  1P ) )  +P.  (
( 1P  +P.  1P )  .P.  1P ) ) )  =  ( 1P 
+P.  ( ( 1P 
.P.  1P )  +P.  (
( 1P  +P.  1P )  .P.  ( 1P  +P.  1P ) ) ) )
19 mulclpr 8830 . . . . . . . 8  |-  ( ( 1P  e.  P.  /\  1P  e.  P. )  -> 
( 1P  .P.  1P )  e.  P. )
204, 4, 19mp2an 654 . . . . . . 7  |-  ( 1P 
.P.  1P )  e.  P.
21 mulclpr 8830 . . . . . . . 8  |-  ( ( ( 1P  +P.  1P )  e.  P.  /\  ( 1P  +P.  1P )  e. 
P. )  ->  (
( 1P  +P.  1P )  .P.  ( 1P  +P.  1P ) )  e.  P. )
226, 6, 21mp2an 654 . . . . . . 7  |-  ( ( 1P  +P.  1P )  .P.  ( 1P  +P.  1P ) )  e.  P.
23 addclpr 8828 . . . . . . 7  |-  ( ( ( 1P  .P.  1P )  e.  P.  /\  (
( 1P  +P.  1P )  .P.  ( 1P  +P.  1P ) )  e.  P. )  ->  ( ( 1P 
.P.  1P )  +P.  (
( 1P  +P.  1P )  .P.  ( 1P  +P.  1P ) ) )  e. 
P. )
2420, 22, 23mp2an 654 . . . . . 6  |-  ( ( 1P  .P.  1P )  +P.  ( ( 1P 
+P.  1P )  .P.  ( 1P  +P.  1P ) ) )  e.  P.
25 mulclpr 8830 . . . . . . . 8  |-  ( ( 1P  e.  P.  /\  ( 1P  +P.  1P )  e.  P. )  -> 
( 1P  .P.  ( 1P  +P.  1P ) )  e.  P. )
264, 6, 25mp2an 654 . . . . . . 7  |-  ( 1P 
.P.  ( 1P  +P.  1P ) )  e.  P.
27 mulclpr 8830 . . . . . . . 8  |-  ( ( ( 1P  +P.  1P )  e.  P.  /\  1P  e.  P. )  ->  (
( 1P  +P.  1P )  .P.  1P )  e. 
P. )
286, 4, 27mp2an 654 . . . . . . 7  |-  ( ( 1P  +P.  1P )  .P.  1P )  e. 
P.
29 addclpr 8828 . . . . . . 7  |-  ( ( ( 1P  .P.  ( 1P  +P.  1P ) )  e.  P.  /\  (
( 1P  +P.  1P )  .P.  1P )  e. 
P. )  ->  (
( 1P  .P.  ( 1P  +P.  1P ) )  +P.  ( ( 1P 
+P.  1P )  .P.  1P ) )  e.  P. )
3026, 28, 29mp2an 654 . . . . . 6  |-  ( ( 1P  .P.  ( 1P 
+P.  1P ) )  +P.  ( ( 1P  +P.  1P )  .P.  1P ) )  e.  P.
31 enreceq 8877 . . . . . 6  |-  ( ( ( ( 1P  +P.  1P )  e.  P.  /\  1P  e.  P. )  /\  ( ( ( 1P 
.P.  1P )  +P.  (
( 1P  +P.  1P )  .P.  ( 1P  +P.  1P ) ) )  e. 
P.  /\  ( ( 1P  .P.  ( 1P  +P.  1P ) )  +P.  (
( 1P  +P.  1P )  .P.  1P ) )  e.  P. ) )  ->  ( [ <. ( 1P  +P.  1P ) ,  1P >. ]  ~R  =  [ <. ( ( 1P 
.P.  1P )  +P.  (
( 1P  +P.  1P )  .P.  ( 1P  +P.  1P ) ) ) ,  ( ( 1P  .P.  ( 1P  +P.  1P ) )  +P.  ( ( 1P  +P.  1P )  .P.  1P ) )
>. ]  ~R  <->  ( ( 1P  +P.  1P )  +P.  ( ( 1P  .P.  ( 1P  +P.  1P ) )  +P.  ( ( 1P  +P.  1P )  .P.  1P ) ) )  =  ( 1P 
+P.  ( ( 1P 
.P.  1P )  +P.  (
( 1P  +P.  1P )  .P.  ( 1P  +P.  1P ) ) ) ) ) )
326, 4, 24, 30, 31mp4an 655 . . . . 5  |-  ( [
<. ( 1P  +P.  1P ) ,  1P >. ]  ~R  =  [ <. ( ( 1P 
.P.  1P )  +P.  (
( 1P  +P.  1P )  .P.  ( 1P  +P.  1P ) ) ) ,  ( ( 1P  .P.  ( 1P  +P.  1P ) )  +P.  ( ( 1P  +P.  1P )  .P.  1P ) )
>. ]  ~R  <->  ( ( 1P  +P.  1P )  +P.  ( ( 1P  .P.  ( 1P  +P.  1P ) )  +P.  ( ( 1P  +P.  1P )  .P.  1P ) ) )  =  ( 1P 
+P.  ( ( 1P 
.P.  1P )  +P.  (
( 1P  +P.  1P )  .P.  ( 1P  +P.  1P ) ) ) ) )
3318, 32mpbir 201 . . . 4  |-  [ <. ( 1P  +P.  1P ) ,  1P >. ]  ~R  =  [ <. ( ( 1P 
.P.  1P )  +P.  (
( 1P  +P.  1P )  .P.  ( 1P  +P.  1P ) ) ) ,  ( ( 1P  .P.  ( 1P  +P.  1P ) )  +P.  ( ( 1P  +P.  1P )  .P.  1P ) )
>. ]  ~R
348, 33eqtr4i 2410 . . 3  |-  ( [
<. 1P ,  ( 1P 
+P.  1P ) >. ]  ~R  .R 
[ <. 1P ,  ( 1P  +P.  1P )
>. ]  ~R  )  =  [ <. ( 1P  +P.  1P ) ,  1P >. ]  ~R
353, 34eqtr4i 2410 . 2  |-  1R  =  ( [ <. 1P ,  ( 1P  +P.  1P )
>. ]  ~R  .R  [ <. 1P ,  ( 1P 
+P.  1P ) >. ]  ~R  )
362, 35eqtr4i 2410 1  |-  ( -1R 
.R  -1R )  =  1R
Colors of variables: wff set class
Syntax hints:    <-> wb 177    = wceq 1649    e. wcel 1717   <.cop 3760  (class class class)co 6020   [cec 6839   P.cnp 8667   1Pc1p 8668    +P. cpp 8669    .P. cmp 8670    ~R cer 8674   1Rc1r 8677   -1Rcm1r 8678    .R cmr 8680
This theorem is referenced by:  sqgt0sr  8914
This theorem was proved from axioms:  ax-1 5  ax-2 6  ax-3 7  ax-mp 8  ax-gen 1552  ax-5 1563  ax-17 1623  ax-9 1661  ax-8 1682  ax-13 1719  ax-14 1721  ax-6 1736  ax-7 1741  ax-11 1753  ax-12 1939  ax-ext 2368  ax-sep 4271  ax-nul 4279  ax-pow 4318  ax-pr 4344  ax-un 4641  ax-inf2 7529
This theorem depends on definitions:  df-bi 178  df-or 360  df-an 361  df-3or 937  df-3an 938  df-tru 1325  df-ex 1548  df-nf 1551  df-sb 1656  df-eu 2242  df-mo 2243  df-clab 2374  df-cleq 2380  df-clel 2383  df-nfc 2512  df-ne 2552  df-ral 2654  df-rex 2655  df-reu 2656  df-rmo 2657  df-rab 2658  df-v 2901  df-sbc 3105  df-csb 3195  df-dif 3266  df-un 3268  df-in 3270  df-ss 3277  df-pss 3279  df-nul 3572  df-if 3683  df-pw 3744  df-sn 3763  df-pr 3764  df-tp 3765  df-op 3766  df-uni 3958  df-int 3993  df-iun 4037  df-br 4154  df-opab 4208  df-mpt 4209  df-tr 4244  df-eprel 4435  df-id 4439  df-po 4444  df-so 4445  df-fr 4482  df-we 4484  df-ord 4525  df-on 4526  df-lim 4527  df-suc 4528  df-om 4786  df-xp 4824  df-rel 4825  df-cnv 4826  df-co 4827  df-dm 4828  df-rn 4829  df-res 4830  df-ima 4831  df-iota 5358  df-fun 5396  df-fn 5397  df-f 5398  df-f1 5399  df-fo 5400  df-f1o 5401  df-fv 5402  df-ov 6023  df-oprab 6024  df-mpt2 6025  df-1st 6288  df-2nd 6289  df-recs 6569  df-rdg 6604  df-1o 6660  df-oadd 6664  df-omul 6665  df-er 6841  df-ec 6843  df-qs 6847  df-ni 8682  df-pli 8683  df-mi 8684  df-lti 8685  df-plpq 8718  df-mpq 8719  df-ltpq 8720  df-enq 8721  df-nq 8722  df-erq 8723  df-plq 8724  df-mq 8725  df-1nq 8726  df-rq 8727  df-ltnq 8728  df-np 8791  df-1p 8792  df-plp 8793  df-mp 8794  df-ltp 8795  df-mpr 8866  df-enr 8867  df-nr 8868  df-mr 8870  df-1r 8873  df-m1r 8874
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