df2c1 - Quantum Logic Explorer

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Theorem df2c1 468

Description: Dual 'commutes' analogue for ≡ analogue of =.

**Hypothesis**
Ref	Expression
df2c1.1	a = ((a ∪ b) ∩ (a ∪ b^⊥ ))

**Assertion**
Ref	Expression
df2c1	a C b

**Proof of Theorem df2c1**
Step	Hyp	Ref	Expression
1		df2c1.1	. . . . 5 a = ((a ∪ b) ∩ (a ∪ b^⊥ ))
2		df-a 40	. . . . . 6 ((a ∪ b) ∩ (a ∪ b^⊥ )) = ((a ∪ b)^⊥ ∪ (a ∪ b^⊥ )^⊥ )^⊥
3		anor3 90	. . . . . . . . 9 (a^⊥ ∩ b^⊥ ) = (a ∪ b)^⊥
4		anor3 90	. . . . . . . . 9 (a^⊥ ∩ b^⊥ ^⊥ ) = (a ∪ b^⊥ )^⊥
5	3, 4	2or 72	. . . . . . . 8 ((a^⊥ ∩ b^⊥ ) ∪ (a^⊥ ∩ b^⊥ ^⊥ )) = ((a ∪ b)^⊥ ∪ (a ∪ b^⊥ )^⊥ )
6	5	ax-r1 35	. . . . . . 7 ((a ∪ b)^⊥ ∪ (a ∪ b^⊥ )^⊥ ) = ((a^⊥ ∩ b^⊥ ) ∪ (a^⊥ ∩ b^⊥ ^⊥ ))
7	6	ax-r4 37	. . . . . 6 ((a ∪ b)^⊥ ∪ (a ∪ b^⊥ )^⊥ )^⊥ = ((a^⊥ ∩ b^⊥ ) ∪ (a^⊥ ∩ b^⊥ ^⊥ ))^⊥
8	2, 7	ax-r2 36	. . . . 5 ((a ∪ b) ∩ (a ∪ b^⊥ )) = ((a^⊥ ∩ b^⊥ ) ∪ (a^⊥ ∩ b^⊥ ^⊥ ))^⊥
9	1, 8	ax-r2 36	. . . 4 a = ((a^⊥ ∩ b^⊥ ) ∪ (a^⊥ ∩ b^⊥ ^⊥ ))^⊥
10	9	con2 67	. . 3 a^⊥ = ((a^⊥ ∩ b^⊥ ) ∪ (a^⊥ ∩ b^⊥ ^⊥ ))
11	10	df-c1 132	. 2 a^⊥ C b^⊥
12	11	comcom5 458	1 a C b

Colors of variables: term

Syntax hints: = wb 1 C wc 3 ^⊥ wn 4 ∪ wo 6 ∩ wa 7

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-le1 130 df-le2 131 df-c1 132 df-c2 133

This theorem is referenced by: gsth 489