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Theorem wler 373

Description: Add disjunct to right of l.e.

**Hypothesis**
Ref	Expression
wle.1	(a ≤₂b) = 1

**Assertion**
Ref	Expression
wler	(a ≤₂(b ∪ c)) = 1

**Proof of Theorem wler**
Step	Hyp	Ref	Expression
1		df-le 121	. 2 (a ≤₂(b ∪ c)) = ((a ∪ (b ∪ c)) ≡ (b ∪ c))
2		ax-a3 31	. . . . 5 ((a ∪ b) ∪ c) = (a ∪ (b ∪ c))
3	2	ax-r1 34	. . . 4 (a ∪ (b ∪ c)) = ((a ∪ b) ∪ c)
4	3	rbi 90	. . 3 ((a ∪ (b ∪ c)) ≡ (b ∪ c)) = (((a ∪ b) ∪ c) ≡ (b ∪ c))
5		df-le 121	. . . . . 6 (a ≤₂b) = ((a ∪ b) ≡ b)
6	5	ax-r1 34	. . . . 5 ((a ∪ b) ≡ b) = (a ≤₂b)
7		wle.1	. . . . 5 (a ≤₂b) = 1
8	6, 7	ax-r2 35	. . . 4 ((a ∪ b) ≡ b) = 1
9	8	wr5-2v 348	. . 3 (((a ∪ b) ∪ c) ≡ (b ∪ c)) = 1
10	4, 9	ax-r2 35	. 2 ((a ∪ (b ∪ c)) ≡ (b ∪ c)) = 1
11	1, 10	ax-r2 35	1 (a ≤₂(b ∪ c)) = 1

Colors of variables: term

Syntax hints: = wb 1 ≡ tb 5 ∪ wo 6 1wt 9 ≤₂wle2 11

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-wom 343

This theorem depends on definitions: df-b 38 df-a 39 df-t 40 df-f 41 df-i1 43 df-i2 44 df-le 121 df-le1 122 df-le2 123