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| Mirrors > Home > ILE Home > Th. List > addid0 | GIF version | ||
| Description: If adding a number to a another number yields the other number, the added number must be 0. This shows that 0 is the unique (right) identity of the complex numbers. (Contributed by AV, 17-Jan-2021.) |
| Ref | Expression |
|---|---|
| addid0 | ⊢ ((𝑋 ∈ ℂ ∧ 𝑌 ∈ ℂ) → ((𝑋 + 𝑌) = 𝑋 ↔ 𝑌 = 0)) |
| Step | Hyp | Ref | Expression |
|---|---|---|---|
| 1 | simpl 107 | . . . 4 ⊢ ((𝑋 ∈ ℂ ∧ 𝑌 ∈ ℂ) → 𝑋 ∈ ℂ) | |
| 2 | simpr 108 | . . . 4 ⊢ ((𝑋 ∈ ℂ ∧ 𝑌 ∈ ℂ) → 𝑌 ∈ ℂ) | |
| 3 | 1, 1, 2 | subaddd 7437 | . . 3 ⊢ ((𝑋 ∈ ℂ ∧ 𝑌 ∈ ℂ) → ((𝑋 − 𝑋) = 𝑌 ↔ (𝑋 + 𝑌) = 𝑋)) |
| 4 | eqcom 2083 | . . . . 5 ⊢ ((𝑋 − 𝑋) = 𝑌 ↔ 𝑌 = (𝑋 − 𝑋)) | |
| 5 | simpr 108 | . . . . . . 7 ⊢ ((𝑋 ∈ ℂ ∧ 𝑌 = (𝑋 − 𝑋)) → 𝑌 = (𝑋 − 𝑋)) | |
| 6 | subid 7327 | . . . . . . . 8 ⊢ (𝑋 ∈ ℂ → (𝑋 − 𝑋) = 0) | |
| 7 | 6 | adantr 270 | . . . . . . 7 ⊢ ((𝑋 ∈ ℂ ∧ 𝑌 = (𝑋 − 𝑋)) → (𝑋 − 𝑋) = 0) |
| 8 | 5, 7 | eqtrd 2113 | . . . . . 6 ⊢ ((𝑋 ∈ ℂ ∧ 𝑌 = (𝑋 − 𝑋)) → 𝑌 = 0) |
| 9 | 8 | ex 113 | . . . . 5 ⊢ (𝑋 ∈ ℂ → (𝑌 = (𝑋 − 𝑋) → 𝑌 = 0)) |
| 10 | 4, 9 | syl5bi 150 | . . . 4 ⊢ (𝑋 ∈ ℂ → ((𝑋 − 𝑋) = 𝑌 → 𝑌 = 0)) |
| 11 | 10 | adantr 270 | . . 3 ⊢ ((𝑋 ∈ ℂ ∧ 𝑌 ∈ ℂ) → ((𝑋 − 𝑋) = 𝑌 → 𝑌 = 0)) |
| 12 | 3, 11 | sylbird 168 | . 2 ⊢ ((𝑋 ∈ ℂ ∧ 𝑌 ∈ ℂ) → ((𝑋 + 𝑌) = 𝑋 → 𝑌 = 0)) |
| 13 | oveq2 5540 | . . . . 5 ⊢ (𝑌 = 0 → (𝑋 + 𝑌) = (𝑋 + 0)) | |
| 14 | addid1 7246 | . . . . 5 ⊢ (𝑋 ∈ ℂ → (𝑋 + 0) = 𝑋) | |
| 15 | 13, 14 | sylan9eqr 2135 | . . . 4 ⊢ ((𝑋 ∈ ℂ ∧ 𝑌 = 0) → (𝑋 + 𝑌) = 𝑋) |
| 16 | 15 | ex 113 | . . 3 ⊢ (𝑋 ∈ ℂ → (𝑌 = 0 → (𝑋 + 𝑌) = 𝑋)) |
| 17 | 16 | adantr 270 | . 2 ⊢ ((𝑋 ∈ ℂ ∧ 𝑌 ∈ ℂ) → (𝑌 = 0 → (𝑋 + 𝑌) = 𝑋)) |
| 18 | 12, 17 | impbid 127 | 1 ⊢ ((𝑋 ∈ ℂ ∧ 𝑌 ∈ ℂ) → ((𝑋 + 𝑌) = 𝑋 ↔ 𝑌 = 0)) |
| Colors of variables: wff set class |
| Syntax hints: → wi 4 ∧ wa 102 ↔ wb 103 = wceq 1284 ∈ wcel 1433 (class class class)co 5532 ℂcc 6979 0cc0 6981 + caddc 6984 − cmin 7279 |
| This theorem was proved from axioms: ax-1 5 ax-2 6 ax-mp 7 ax-ia1 104 ax-ia2 105 ax-ia3 106 ax-in1 576 ax-in2 577 ax-io 662 ax-5 1376 ax-7 1377 ax-gen 1378 ax-ie1 1422 ax-ie2 1423 ax-8 1435 ax-10 1436 ax-11 1437 ax-i12 1438 ax-bndl 1439 ax-4 1440 ax-14 1445 ax-17 1459 ax-i9 1463 ax-ial 1467 ax-i5r 1468 ax-ext 2063 ax-sep 3896 ax-pow 3948 ax-pr 3964 ax-setind 4280 ax-resscn 7068 ax-1cn 7069 ax-icn 7071 ax-addcl 7072 ax-addrcl 7073 ax-mulcl 7074 ax-addcom 7076 ax-addass 7078 ax-distr 7080 ax-i2m1 7081 ax-0id 7084 ax-rnegex 7085 ax-cnre 7087 |
| This theorem depends on definitions: df-bi 115 df-3an 921 df-tru 1287 df-fal 1290 df-nf 1390 df-sb 1686 df-eu 1944 df-mo 1945 df-clab 2068 df-cleq 2074 df-clel 2077 df-nfc 2208 df-ne 2246 df-ral 2353 df-rex 2354 df-reu 2355 df-rab 2357 df-v 2603 df-sbc 2816 df-dif 2975 df-un 2977 df-in 2979 df-ss 2986 df-pw 3384 df-sn 3404 df-pr 3405 df-op 3407 df-uni 3602 df-br 3786 df-opab 3840 df-id 4048 df-xp 4369 df-rel 4370 df-cnv 4371 df-co 4372 df-dm 4373 df-iota 4887 df-fun 4924 df-fv 4930 df-riota 5488 df-ov 5535 df-oprab 5536 df-mpt2 5537 df-sub 7281 |
| This theorem is referenced by: addn0nid 7478 |
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