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Related theorems GIF version |
| Description: Derivation of 4-OA law variant. |
| Ref | Expression |
|---|---|
| oa4ctod.1 | (a⊥ ∩ (a ∪ (b ∩ (((a ∩ b) ∪ ((a →1 d) ∩ (b →1 d))) ∪ (((a ∩ c) ∪ ((a →1 d) ∩ (c →1 d))) ∩ ((b ∩ c) ∪ ((b →1 d) ∩ (c →1 d)))))))) ≤ d |
| Ref | Expression |
|---|---|
| oa4ctod | (b ∩ (((a ∩ b) ∪ ((a →1 d) ∩ (b →1 d))) ∪ (((a ∩ c) ∪ ((a →1 d) ∩ (c →1 d))) ∩ ((b ∩ c) ∪ ((b →1 d) ∩ (c →1 d)))))) ≤ (a⊥ →1 d) |
| Step | Hyp | Ref | Expression |
|---|---|---|---|
| 1 | oa4ctod.1 | . 2 (a⊥ ∩ (a ∪ (b ∩ (((a ∩ b) ∪ ((a →1 d) ∩ (b →1 d))) ∪ (((a ∩ c) ∪ ((a →1 d) ∩ (c →1 d))) ∩ ((b ∩ c) ∪ ((b →1 d) ∩ (c →1 d)))))))) ≤ d | |
| 2 | 1 | oat 927 | 1 (b ∩ (((a ∩ b) ∪ ((a →1 d) ∩ (b →1 d))) ∪ (((a ∩ c) ∪ ((a →1 d) ∩ (c →1 d))) ∩ ((b ∩ c) ∪ ((b →1 d) ∩ (c →1 d)))))) ≤ (a⊥ →1 d) |
| Colors of variables: term |
| Syntax hints: ≤ wle 2 ⊥ wn 4 ∪ wo 6 ∩ wa 7 →1 wi1 12 |
| This theorem is referenced by: axoa4d 1037 |
| This theorem was proved from axioms: ax-a1 30 ax-a2 31 ax-a3 32 ax-a5 34 ax-r1 35 ax-r2 36 ax-r4 37 ax-r5 38 ax-r3 439 |
| This theorem depends on definitions: df-b 39 df-a 40 df-t 41 df-f 42 df-i1 44 df-le1 130 df-le2 131 |