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Theorem m1m1sr 3996

Description: Minus one times minus one is plus one for signed reals.

**Assertion**
Ref	Expression
m1m1sr	⊢ (-1_R ·_R -1_R) = 1_R

**Proof of Theorem m1m1sr**
Step	Hyp	Ref	Expression
1		1pr 3911	. . . . 5 ⊢ 1_P ∈ P
2		addclpr 3914	. . . . . 6 ⊢ ((1_P ∈ P ∧ 1_P ∈ P) → (1_P +_P 1_P) ∈ P)
3	1, 1, 2	mp2an 520	. . . . 5 ⊢ (1_P +_P 1_P) ∈ P
4	1, 3	pm3.2i 234	. . . 4 ⊢ (1_P ∈ P ∧ (1_P +_P 1_P) ∈ P)
5		mulsrpr 3979	. . . 4 ⊢ (((1_P ∈ P ∧ (1_P +_P 1_P) ∈ P) ∧ (1_P ∈ P ∧ (1_P +_P 1_P) ∈ P)) → ([⟨1_P, (1_P +_P 1_P)⟩] ~_R ·_R [⟨1_P, (1_P +_P 1_P)⟩] ~_R ) = [⟨((1_P ·_P 1_P) +_P ((1_P +_P 1_P) ·_P (1_P +_P 1_P))), ((1_P ·_P (1_P +_P 1_P)) +_P ((1_P +_P 1_P) ·_P 1_P))⟩] ~_R )
6	4, 4, 5	mp2an 520	. . 3 ⊢ ([⟨1_P, (1_P +_P 1_P)⟩] ~_R ·_R [⟨1_P, (1_P +_P 1_P)⟩] ~_R ) = [⟨((1_P ·_P 1_P) +_P ((1_P +_P 1_P) ·_P (1_P +_P 1_P))), ((1_P ·_P (1_P +_P 1_P)) +_P ((1_P +_P 1_P) ·_P 1_P))⟩] ~_R
7	1	elisseti 1355	. . . . . 6 ⊢ 1_P ∈ V
8		oprex 3018	. . . . . 6 ⊢ ((1_P ·_P (1_P +_P 1_P)) +_P ((1_P +_P 1_P) ·_P 1_P)) ∈ V
9	7, 8	addasspr 3918	. . . . 5 ⊢ ((1_P +_P 1_P) +_P ((1_P ·_P (1_P +_P 1_P)) +_P ((1_P +_P 1_P) ·_P 1_P))) = (1_P +_P (1_P +_P ((1_P ·_P (1_P +_P 1_P)) +_P ((1_P +_P 1_P) ·_P 1_P))))
10		1idpr 3927	. . . . . . . 8 ⊢ (1_P ∈ P → (1_P ·_P 1_P) = 1_P)
11	1, 10	ax-mp 6	. . . . . . 7 ⊢ (1_P ·_P 1_P) = 1_P
12	7, 7	distrpr 3926	. . . . . . . 8 ⊢ ((1_P +_P 1_P) ·_P (1_P +_P 1_P)) = (((1_P +_P 1_P) ·_P 1_P) +_P ((1_P +_P 1_P) ·_P 1_P))
13		oprex 3018	. . . . . . . . . 10 ⊢ (1_P +_P 1_P) ∈ V
14	7, 13	mulcompr 3919	. . . . . . . . 9 ⊢ (1_P ·_P (1_P +_P 1_P)) = ((1_P +_P 1_P) ·_P 1_P)
15	14	opreq1i 3009	. . . . . . . 8 ⊢ ((1_P ·_P (1_P +_P 1_P)) +_P ((1_P +_P 1_P) ·_P 1_P)) = (((1_P +_P 1_P) ·_P 1_P) +_P ((1_P +_P 1_P) ·_P 1_P))
16	12, 15	eqtr4 1122	. . . . . . 7 ⊢ ((1_P +_P 1_P) ·_P (1_P +_P 1_P)) = ((1_P ·_P (1_P +_P 1_P)) +_P ((1_P +_P 1_P) ·_P 1_P))
17	11, 16	opreq12i 3011	. . . . . 6 ⊢ ((1_P ·_P 1_P) +_P ((1_P +_P 1_P) ·_P (1_P +_P 1_P))) = (1_P +_P ((1_P ·_P (1_P +_P 1_P)) +_P ((1_P +_P 1_P) ·_P 1_P)))
18	17	opreq2i 3010	. . . . 5 ⊢ (1_P +_P ((1_P ·_P 1_P) +_P ((1_P +_P 1_P) ·_P (1_P +_P 1_P)))) = (1_P +_P (1_P +_P ((1_P ·_P (1_P +_P 1_P)) +_P ((1_P +_P 1_P) ·_P 1_P))))
19	9, 18	eqtr4 1122	. . . 4 ⊢ ((1_P +_P 1_P) +_P ((1_P ·_P (1_P +_P 1_P)) +_P ((1_P +_P 1_P) ·_P 1_P))) = (1_P +_P ((1_P ·_P 1_P) +_P ((1_P +_P 1_P) ·_P (1_P +_P 1_P))))
20	3, 1	pm3.2i 234	. . . . 5 ⊢ ((1_P +_P 1_P) ∈ P ∧ 1_P ∈ P)
21		mulclpr 3916	. . . . . . . 8 ⊢ ((1_P ∈ P ∧ 1_P ∈ P) → (1_P ·_P 1_P) ∈ P)
22	1, 1, 21	mp2an 520	. . . . . . 7 ⊢ (1_P ·_P 1_P) ∈ P
23		mulclpr 3916	. . . . . . . 8 ⊢ (((1_P +_P 1_P) ∈ P ∧ (1_P +_P 1_P) ∈ P) → ((1_P +_P 1_P) ·_P (1_P +_P 1_P)) ∈ P)
24	3, 3, 23	mp2an 520	. . . . . . 7 ⊢ ((1_P +_P 1_P) ·_P (1_P +_P 1_P)) ∈ P
25		addclpr 3914	. . . . . . 7 ⊢ (((1_P ·_P 1_P) ∈ P ∧ ((1_P +_P 1_P) ·_P (1_P +_P 1_P)) ∈ P) → ((1_P ·_P 1_P) +_P ((1_P +_P 1_P) ·_P (1_P +_P 1_P))) ∈ P)
26	22, 24, 25	mp2an 520	. . . . . 6 ⊢ ((1_P ·_P 1_P) +_P ((1_P +_P 1_P) ·_P (1_P +_P 1_P))) ∈ P
27		mulclpr 3916	. . . . . . . 8 ⊢ ((1_P ∈ P ∧ (1_P +_P 1_P) ∈ P) → (1_P ·_P (1_P +_P 1_P)) ∈ P)
28	1, 3, 27	mp2an 520	. . . . . . 7 ⊢ (1_P ·_P (1_P +_P 1_P)) ∈ P
29		mulclpr 3916	. . . . . . . 8 ⊢ (((1_P +_P 1_P) ∈ P ∧ 1_P ∈ P) → ((1_P +_P 1_P) ·_P 1_P) ∈ P)
30	3, 1, 29	mp2an 520	. . . . . . 7 ⊢ ((1_P +_P 1_P) ·_P 1_P) ∈ P
31		addclpr 3914	. . . . . . 7 ⊢ (((1_P ·_P (1_P +_P 1_P)) ∈ P ∧ ((1_P +_P 1_P) ·_P 1_P) ∈ P) → ((1_P ·_P (1_P +_P 1_P)) +_P ((1_P +_P 1_P) ·_P 1_P)) ∈ P)
32	28, 30, 31	mp2an 520	. . . . . 6 ⊢ ((1_P ·_P (1_P +_P 1_P)) +_P ((1_P +_P 1_P) ·_P 1_P)) ∈ P
33	26, 32	pm3.2i 234	. . . . 5 ⊢ (((1_P ·_P 1_P) +_P ((1_P +_P 1_P) ·_P (1_P +_P 1_P))) ∈ P ∧ ((1_P ·_P (1_P +_P 1_P)) +_P ((1_P +_P 1_P) ·_P 1_P)) ∈ P)
34		enreceq 3971	. . . . 5 ⊢ ((((1_P +_P 1_P) ∈ P ∧ 1_P ∈ P) ∧ (((1_P ·_P 1_P) +_P ((1_P +_P 1_P) ·_P (1_P +_P 1_P))) ∈ P ∧ ((1_P ·_P (1_P +_P 1_P)) +_P ((1_P +_P 1_P) ·_P 1_P)) ∈ P)) → ([⟨(1_P +_P 1_P), 1_P⟩] ~_R = [⟨((1_P ·_P 1_P) +_P ((1_P +_P 1_P) ·_P (1_P +_P 1_P))), ((1_P ·_P (1_P +_P 1_P)) +_P ((1_P +_P 1_P) ·_P 1_P))⟩] ~_R ↔ ((1_P +_P 1_P) +_P ((1_P ·_P (1_P +_P 1_P)) +_P ((1_P +_P 1_P) ·_P 1_P))) = (1_P +_P ((1_P ·_P 1_P) +_P ((1_P +_P 1_P) ·_P (1_P +_P 1_P))))))
35	20, 33, 34	mp2an 520	. . . 4 ⊢ ([⟨(1_P +_P 1_P), 1_P⟩] ~_R = [⟨((1_P ·_P 1_P) +_P ((1_P +_P 1_P) ·_P (1_P +_P 1_P))), ((1_P ·_P (1_P +_P 1_P)) +_P ((1_P +_P 1_P) ·_P 1_P))⟩] ~_R ↔ ((1_P +_P 1_P) +_P ((1_P ·_P (1_P +_P 1_P)) +_P ((1_P +_P 1_P) ·_P 1_P))) = (1_P +_P ((1_P ·_P 1_P) +_P ((1_P +_P 1_P) ·_P (1_P +_P 1_P)))))
36	19, 35	mpbir 165	. . 3 ⊢ [⟨(1_P +_P 1_P), 1_P⟩] ~_R = [⟨((1_P ·_P 1_P) +_P ((1_P +_P 1_P) ·_P (1_P +_P 1_P))), ((1_P ·_P (1_P +_P 1_P)) +_P ((1_P +_P 1_P) ·_P 1_P))⟩] ~_R
37	6, 36	eqtr4 1122	. 2 ⊢ ([⟨1_P, (1_P +_P 1_P)⟩] ~_R ·_R [⟨1_P, (1_P +_P 1_P)⟩] ~_R ) = [⟨(1_P +_P 1_P), 1_P⟩] ~_R
38		df-m1r 3967	. . 3 ⊢ -1_R = [⟨1_P, (1_P +_P 1_P)⟩] ~_R
39	38, 38	opreq12i 3011	. 2 ⊢ (-1_R ·_R -1_R) = ([⟨1_P, (1_P +_P 1_P)⟩] ~_R ·_R [⟨1_P, (1_P +_P 1_P)⟩] ~_R )
40		df-1r 3966	. 2 ⊢ 1_R = [⟨(1_P +_P 1_P), 1_P⟩] ~_R
41	37, 39, 40	3eqtr4 1126	1 ⊢ (-1_R ·_R -1_R) = 1_R

Colors of variables: wff set class

Syntax hints: ↔ wb 127 ∧ wa 196 = wceq 1091 ∈ wcel 1092 ⟨cop 1810 (class class class)co 3001 [cec 3198 Pcnp 3779 1_Pc1p 3780 +_P cpp 3781 ·_P cmp 3782 ~_R cer 3786 1_Rc1r 3789 -1_Rcm1r 3790 ·_R cmr 3792

This theorem is referenced by: sqgt0sr 4009 axrecex 4079

This theorem was proved from axioms: ax-1 3 ax-2 4 ax-3 5 ax-mp 6 ax-4 673 ax-5 674 ax-6 675 ax-7 676 ax-gen 677 ax-8 798 ax-9 799 ax-10 800 ax-11 801 ax-12 802 ax-13 804 ax-14 805 ax-16 922 ax-17 925 ax-ext 1074 ax-rep 1075 ax-un 1076 ax-pow 1077 ax-reg 1078 ax-inf 1079

This theorem depends on definitions: df-bi 128 df-or 197 df-an 198 df-3or 582 df-3an 583 df-ex 679 df-sb 853 df-eu 1009 df-mo 1010 df-clab 1093 df-cleq 1097 df-clel 1099 df-ne 1192 df-ral 1205 df-rex 1206 df-reu 1207 df-rab 1208 df-v 1349 df-sbc 1441 df-dif 1489 df-un 1490 df-in 1491 df-ss 1492 df-pss 1494 df-nul 1708 df-if 1777 df-pw 1799 df-sn 1811 df-pr 1812 df-tp 1814 df-op 1815 df-uni 1920 df-int 1966 df-iun 1996 df-tr 2042 df-br 2063 df-opab 2098 df-eprel 2122 df-id 2125 df-po 2128 df-so 2138 df-fr 2169 df-we 2186 df-ord 2202 df-on 2203 df-lim 2204 df-suc 2205 df-om 2373 df-xp 2424 df-rel 2425 df-cnv 2426 df-co 2427 df-dm 2428 df-rn 2429 df-res 2430 df-ima 2431 df-fun 2432 df-fn 2433 df-f 2434 df-f1 2435 df-fv 2438 df-rdg 2970 df-opr 3003 df-oprab 3004 df-1o 3104 df-oadd 3106 df-omul 3107 df-er 3200 df-ec 3202 df-qs 3205 df-ni 3794 df-pli 3795 df-mi 3796 df-lti 3797 df-plpq 3829 df-mpq 3830 df-enq 3831 df-nq 3832 df-plq 3833 df-mq 3834 df-rq 3835 df-ltq 3836 df-1q 3837 df-np 3880 df-1p 3881 df-plp 3882 df-mp 3883 df-ltp 3884 df-mpr 3959 df-enr 3960 df-nr 3961 df-mr 3963 df-1r 3966 df-m1r 3967

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