Theorem d6oa 977

Description: Derivation of 6-variable orthoarguesian law from OA distributive law.

Hypotheses

Ref	Expression
d6oa.1	a ≤ b⊥
d6oa.2	c ≤ d⊥
d6oa.3	e ≤ f⊥

Assertion

Ref	Expression
d6oa	(((a ∪ b) ∩ (c ∪ d)) ∩ (e ∪ f)) ≤ (b ∪ (a ∩ (c ∪ (((a ∪ c) ∩ (b ∪ d)) ∩ (((a ∪ e) ∩ (b ∪ f)) ∪ ((c ∪ e) ∩ (d ∪ f)))))))

Proof of Theorem d6oa

Step	Hyp	Ref	Expression
1		d6oa.1	. 2 a ≤ b⊥
2		d6oa.2	. 2 c ≤ d⊥
3		d6oa.3	. 2 e ≤ f⊥
4		id 58	. 2 (((a⊥ ∩ b⊥ ) ∪ (c⊥ ∩ d⊥ )) ∪ (e⊥ ∩ f⊥ )) = (((a⊥ ∩ b⊥ ) ∪ (c⊥ ∩ d⊥ )) ∪ (e⊥ ∩ f⊥ ))
5		id 58	. 2 a⊥ = a⊥
6		id 58	. 2 c⊥ = c⊥
7		id 58	. 2 e⊥ = e⊥
8		id 58	. . . . 5 (((c⊥ →1 (((a⊥ ∩ b⊥ ) ∪ (c⊥ ∩ d⊥ )) ∪ (e⊥ ∩ f⊥ ))) ∩ (a⊥ →1 (((a⊥ ∩ b⊥ ) ∪ (c⊥ ∩ d⊥ )) ∪ (e⊥ ∩ f⊥ )))) ∪ (((c⊥ →1 (((a⊥ ∩ b⊥ ) ∪ (c⊥ ∩ d⊥ )) ∪ (e⊥ ∩ f⊥ ))) →1 (((a⊥ ∩ b⊥ ) ∪ (c⊥ ∩ d⊥ )) ∪ (e⊥ ∩ f⊥ ))) ∩ ((a⊥ →1 (((a⊥ ∩ b⊥ ) ∪ (c⊥ ∩ d⊥ )) ∪ (e⊥ ∩ f⊥ ))) →1 (((a⊥ ∩ b⊥ ) ∪ (c⊥ ∩ d⊥ )) ∪ (e⊥ ∩ f⊥ ))))) = (((c⊥ →1 (((a⊥ ∩ b⊥ ) ∪ (c⊥ ∩ d⊥ )) ∪ (e⊥ ∩ f⊥ ))) ∩ (a⊥ →1 (((a⊥ ∩ b⊥ ) ∪ (c⊥ ∩ d⊥ )) ∪ (e⊥ ∩ f⊥ )))) ∪ (((c⊥ →1 (((a⊥ ∩ b⊥ ) ∪ (c⊥ ∩ d⊥ )) ∪ (e⊥ ∩ f⊥ ))) →1 (((a⊥ ∩ b⊥ ) ∪ (c⊥ ∩ d⊥ )) ∪ (e⊥ ∩ f⊥ ))) ∩ ((a⊥ →1 (((a⊥ ∩ b⊥ ) ∪ (c⊥ ∩ d⊥ )) ∪ (e⊥ ∩ f⊥ ))) →1 (((a⊥ ∩ b⊥ ) ∪ (c⊥ ∩ d⊥ )) ∪ (e⊥ ∩ f⊥ )))))
9		id 58	. . . . 5 ((((c⊥ →1 (((a⊥ ∩ b⊥ ) ∪ (c⊥ ∩ d⊥ )) ∪ (e⊥ ∩ f⊥ ))) ∩ (e⊥ →1 (((a⊥ ∩ b⊥ ) ∪ (c⊥ ∩ d⊥ )) ∪ (e⊥ ∩ f⊥ )))) ∪ (((c⊥ →1 (((a⊥ ∩ b⊥ ) ∪ (c⊥ ∩ d⊥ )) ∪ (e⊥ ∩ f⊥ ))) →1 (((a⊥ ∩ b⊥ ) ∪ (c⊥ ∩ d⊥ )) ∪ (e⊥ ∩ f⊥ ))) ∩ ((e⊥ →1 (((a⊥ ∩ b⊥ ) ∪ (c⊥ ∩ d⊥ )) ∪ (e⊥ ∩ f⊥ ))) →1 (((a⊥ ∩ b⊥ ) ∪ (c⊥ ∩ d⊥ )) ∪ (e⊥ ∩ f⊥ ))))) ∩ (((a⊥ →1 (((a⊥ ∩ b⊥ ) ∪ (c⊥ ∩ d⊥ )) ∪ (e⊥ ∩ f⊥ ))) ∩ (e⊥ →1 (((a⊥ ∩ b⊥ ) ∪ (c⊥ ∩ d⊥ )) ∪ (e⊥ ∩ f⊥ )))) ∪ (((a⊥ →1 (((a⊥ ∩ b⊥ ) ∪ (c⊥ ∩ d⊥ )) ∪ (e⊥ ∩ f⊥ ))) →1 (((a⊥ ∩ b⊥ ) ∪ (c⊥ ∩ d⊥ )) ∪ (e⊥ ∩ f⊥ ))) ∩ ((e⊥ →1 (((a⊥ ∩ b⊥ ) ∪ (c⊥ ∩ d⊥ )) ∪ (e⊥ ∩ f⊥ ))) →1 (((a⊥ ∩ b⊥ ) ∪ (c⊥ ∩ d⊥ )) ∪ (e⊥ ∩ f⊥ )))))) = ((((c⊥ →1 (((a⊥ ∩ b⊥ ) ∪ (c⊥ ∩ d⊥ )) ∪ (e⊥ ∩ f⊥ ))) ∩ (e⊥ →1 (((a⊥ ∩ b⊥ ) ∪ (c⊥ ∩ d⊥ )) ∪ (e⊥ ∩ f⊥ )))) ∪ (((c⊥ →1 (((a⊥ ∩ b⊥ ) ∪ (c⊥ ∩ d⊥ )) ∪ (e⊥ ∩ f⊥ ))) →1 (((a⊥ ∩ b⊥ ) ∪ (c⊥ ∩ d⊥ )) ∪ (e⊥ ∩ f⊥ ))) ∩ ((e⊥ →1 (((a⊥ ∩ b⊥ ) ∪ (c⊥ ∩ d⊥ )) ∪ (e⊥ ∩ f⊥ ))) →1 (((a⊥ ∩ b⊥ ) ∪ (c⊥ ∩ d⊥ )) ∪ (e⊥ ∩ f⊥ ))))) ∩ (((a⊥ →1 (((a⊥ ∩ b⊥ ) ∪ (c⊥ ∩ d⊥ )) ∪ (e⊥ ∩ f⊥ ))) ∩ (e⊥ →1 (((a⊥ ∩ b⊥ ) ∪ (c⊥ ∩ d⊥ )) ∪ (e⊥ ∩ f⊥ )))) ∪ (((a⊥ →1 (((a⊥ ∩ b⊥ ) ∪ (c⊥ ∩ d⊥ )) ∪ (e⊥ ∩ f⊥ ))) →1 (((a⊥ ∩ b⊥ ) ∪ (c⊥ ∩ d⊥ )) ∪ (e⊥ ∩ f⊥ ))) ∩ ((e⊥ →1 (((a⊥ ∩ b⊥ ) ∪ (c⊥ ∩ d⊥ )) ∪ (e⊥ ∩ f⊥ ))) →1 (((a⊥ ∩ b⊥ ) ∪ (c⊥ ∩ d⊥ )) ∪ (e⊥ ∩ f⊥ ))))))
10	8, 9	d4oa 976	. . . 4 (((c⊥ →1 (((a⊥ ∩ b⊥ ) ∪ (c⊥ ∩ d⊥ )) ∪ (e⊥ ∩ f⊥ ))) →1 (((a⊥ ∩ b⊥ ) ∪ (c⊥ ∩ d⊥ )) ∪ (e⊥ ∩ f⊥ ))) ∩ ((((c⊥ →1 (((a⊥ ∩ b⊥ ) ∪ (c⊥ ∩ d⊥ )) ∪ (e⊥ ∩ f⊥ ))) ∩ (a⊥ →1 (((a⊥ ∩ b⊥ ) ∪ (c⊥ ∩ d⊥ )) ∪ (e⊥ ∩ f⊥ )))) ∪ (((c⊥ →1 (((a⊥ ∩ b⊥ ) ∪ (c⊥ ∩ d⊥ )) ∪ (e⊥ ∩ f⊥ ))) →1 (((a⊥ ∩ b⊥ ) ∪ (c⊥ ∩ d⊥ )) ∪ (e⊥ ∩ f⊥ ))) ∩ ((a⊥ →1 (((a⊥ ∩ b⊥ ) ∪ (c⊥ ∩ d⊥ )) ∪ (e⊥ ∩ f⊥ ))) →1 (((a⊥ ∩ b⊥ ) ∪ (c⊥ ∩ d⊥ )) ∪ (e⊥ ∩ f⊥ ))))) ∪ ((((c⊥ →1 (((a⊥ ∩ b⊥ ) ∪ (c⊥ ∩ d⊥ )) ∪ (e⊥ ∩ f⊥ ))) ∩ (e⊥ →1 (((a⊥ ∩ b⊥ ) ∪ (c⊥ ∩ d⊥ )) ∪ (e⊥ ∩ f⊥ )))) ∪ (((c⊥ →1 (((a⊥ ∩ b⊥ ) ∪ (c⊥ ∩ d⊥ )) ∪ (e⊥ ∩ f⊥ ))) →1 (((a⊥ ∩ b⊥ ) ∪ (c⊥ ∩ d⊥ )) ∪ (e⊥ ∩ f⊥ ))) ∩ ((e⊥ →1 (((a⊥ ∩ b⊥ ) ∪ (c⊥ ∩ d⊥ )) ∪ (e⊥ ∩ f⊥ ))) →1 (((a⊥ ∩ b⊥ ) ∪ (c⊥ ∩ d⊥ )) ∪ (e⊥ ∩ f⊥ ))))) ∩ (((a⊥ →1 (((a⊥ ∩ b⊥ ) ∪ (c⊥ ∩ d⊥ )) ∪ (e⊥ ∩ f⊥ ))) ∩ (e⊥ →1 (((a⊥ ∩ b⊥ ) ∪ (c⊥ ∩ d⊥ )) ∪ (e⊥ ∩ f⊥ )))) ∪ (((a⊥ →1 (((a⊥ ∩ b⊥ ) ∪ (c⊥ ∩ d⊥ )) ∪ (e⊥ ∩ f⊥ ))) →1 (((a⊥ ∩ b⊥ ) ∪ (c⊥ ∩ d⊥ )) ∪ (e⊥ ∩ f⊥ ))) ∩ ((e⊥ →1 (((a⊥ ∩ b⊥ ) ∪ (c⊥ ∩ d⊥ )) ∪ (e⊥ ∩ f⊥ ))) →1 (((a⊥ ∩ b⊥ ) ∪ (c⊥ ∩ d⊥ )) ∪ (e⊥ ∩ f⊥ )))))))) ≤ ((a⊥ →1 (((a⊥ ∩ b⊥ ) ∪ (c⊥ ∩ d⊥ )) ∪ (e⊥ ∩ f⊥ ))) →1 (((a⊥ ∩ b⊥ ) ∪ (c⊥ ∩ d⊥ )) ∪ (e⊥ ∩ f⊥ )))
11		id 58	. . . 4 (a⊥ →1 (((a⊥ ∩ b⊥ ) ∪ (c⊥ ∩ d⊥ )) ∪ (e⊥ ∩ f⊥ ))) = (a⊥ →1 (((a⊥ ∩ b⊥ ) ∪ (c⊥ ∩ d⊥ )) ∪ (e⊥ ∩ f⊥ )))
12		id 58	. . . 4 (c⊥ →1 (((a⊥ ∩ b⊥ ) ∪ (c⊥ ∩ d⊥ )) ∪ (e⊥ ∩ f⊥ ))) = (c⊥ →1 (((a⊥ ∩ b⊥ ) ∪ (c⊥ ∩ d⊥ )) ∪ (e⊥ ∩ f⊥ )))
13		id 58	. . . 4 (e⊥ →1 (((a⊥ ∩ b⊥ ) ∪ (c⊥ ∩ d⊥ )) ∪ (e⊥ ∩ f⊥ ))) = (e⊥ →1 (((a⊥ ∩ b⊥ ) ∪ (c⊥ ∩ d⊥ )) ∪ (e⊥ ∩ f⊥ )))
14	10, 11, 12, 13	oa4gto4u 956	. . 3 ((a⊥ →1 (((a⊥ ∩ b⊥ ) ∪ (c⊥ ∩ d⊥ )) ∪ (e⊥ ∩ f⊥ ))) ∩ ((a⊥ ⊥ →1 (((a⊥ ∩ b⊥ ) ∪ (c⊥ ∩ d⊥ )) ∪ (e⊥ ∩ f⊥ ))) ∪ ((c⊥ ⊥ →1 (((a⊥ ∩ b⊥ ) ∪ (c⊥ ∩ d⊥ )) ∪ (e⊥ ∩ f⊥ ))) ∩ ((((a⊥ →1 (((a⊥ ∩ b⊥ ) ∪ (c⊥ ∩ d⊥ )) ∪ (e⊥ ∩ f⊥ ))) ∩ (c⊥ →1 (((a⊥ ∩ b⊥ ) ∪ (c⊥ ∩ d⊥ )) ∪ (e⊥ ∩ f⊥ )))) ∪ ((a⊥ ⊥ →1 (((a⊥ ∩ b⊥ ) ∪ (c⊥ ∩ d⊥ )) ∪ (e⊥ ∩ f⊥ ))) ∩ (c⊥ ⊥ →1 (((a⊥ ∩ b⊥ ) ∪ (c⊥ ∩ d⊥ )) ∪ (e⊥ ∩ f⊥ ))))) ∪ ((((a⊥ →1 (((a⊥ ∩ b⊥ ) ∪ (c⊥ ∩ d⊥ )) ∪ (e⊥ ∩ f⊥ ))) ∩ (e⊥ →1 (((a⊥ ∩ b⊥ ) ∪ (c⊥ ∩ d⊥ )) ∪ (e⊥ ∩ f⊥ )))) ∪ ((a⊥ ⊥ →1 (((a⊥ ∩ b⊥ ) ∪ (c⊥ ∩ d⊥ )) ∪ (e⊥ ∩ f⊥ ))) ∩ (e⊥ ⊥ →1 (((a⊥ ∩ b⊥ ) ∪ (c⊥ ∩ d⊥ )) ∪ (e⊥ ∩ f⊥ ))))) ∩ (((c⊥ →1 (((a⊥ ∩ b⊥ ) ∪ (c⊥ ∩ d⊥ )) ∪ (e⊥ ∩ f⊥ ))) ∩ (e⊥ →1 (((a⊥ ∩ b⊥ ) ∪ (c⊥ ∩ d⊥ )) ∪ (e⊥ ∩ f⊥ )))) ∪ ((c⊥ ⊥ →1 (((a⊥ ∩ b⊥ ) ∪ (c⊥ ∩ d⊥ )) ∪ (e⊥ ∩ f⊥ ))) ∩ (e⊥ ⊥ →1 (((a⊥ ∩ b⊥ ) ∪ (c⊥ ∩ d⊥ )) ∪ (e⊥ ∩ f⊥ )))))))))) ≤ (((a⊥ ∩ b⊥ ) ∪ (c⊥ ∩ d⊥ )) ∪ (e⊥ ∩ f⊥ ))
15	14	oa4uto4 957	. 2 ((a⊥ →1 (((a⊥ ∩ b⊥ ) ∪ (c⊥ ∩ d⊥ )) ∪ (e⊥ ∩ f⊥ ))) ∩ (a⊥ ∪ (c⊥ ∩ (((a⊥ ∩ c⊥ ) ∪ ((a⊥ →1 (((a⊥ ∩ b⊥ ) ∪ (c⊥ ∩ d⊥ )) ∪ (e⊥ ∩ f⊥ ))) ∩ (c⊥ →1 (((a⊥ ∩ b⊥ ) ∪ (c⊥ ∩ d⊥ )) ∪ (e⊥ ∩ f⊥ ))))) ∪ (((a⊥ ∩ e⊥ ) ∪ ((a⊥ →1 (((a⊥ ∩ b⊥ ) ∪ (c⊥ ∩ d⊥ )) ∪ (e⊥ ∩ f⊥ ))) ∩ (e⊥ →1 (((a⊥ ∩ b⊥ ) ∪ (c⊥ ∩ d⊥ )) ∪ (e⊥ ∩ f⊥ ))))) ∩ ((c⊥ ∩ e⊥ ) ∪ ((c⊥ →1 (((a⊥ ∩ b⊥ ) ∪ (c⊥ ∩ d⊥ )) ∪ (e⊥ ∩ f⊥ ))) ∩ (e⊥ →1 (((a⊥ ∩ b⊥ ) ∪ (c⊥ ∩ d⊥ )) ∪ (e⊥ ∩ f⊥ )))))))))) ≤ (((a⊥ ∩ b⊥ ) ∪ (c⊥ ∩ d⊥ )) ∪ (e⊥ ∩ f⊥ ))
16	1, 2, 3, 4, 5, 6, 7, 15	oa4to6 945	1 (((a ∪ b) ∩ (c ∪ d)) ∩ (e ∪ f)) ≤ (b ∪ (a ∩ (c ∪ (((a ∪ c) ∩ (b ∪ d)) ∩ (((a ∪ e) ∩ (b ∪ f)) ∪ ((c ∪ e) ∩ (d ∪ f)))))))

Syntax hints:   ≤ wle 2  ^⊥ wn 4   ∪ wo 6   ∩ wa 7   →₁ wi1 13

This theorem was proved from axioms:  ax-a1 29  ax-a2 30  ax-a3 31  ax-a4 32  ax-a5 33  ax-r1 34  ax-r2 35  ax-r4 36  ax-r5 37  ax-r3 421  ax-oadist 974

This theorem depends on definitions:  df-b 38  df-a 39  df-t 40  df-f 41  df-i0 42  df-i1 43  df-i2 44  df-le1 122  df-le2 123  df-c1 124  df-c2 125

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