Metamath Proof Explorer

Theorem ltleadd

Description: Adding both sides of two orderings. (Contributed by NM, 23-Dec-2007)

		Ref	Expression
	Assertion	ltleadd	$⊢ ((A \in ℝ \land B \in ℝ) \land (C \in ℝ \land D \in ℝ)) \to ((A < C \land B \leq D) \to A + B < C + D)$

Proof

Step	Hyp	Ref	Expression
1		ltadd1	$⊢ (A \in ℝ \land C \in ℝ \land B \in ℝ) \to (A < C \leftrightarrow A + B < C + B)$
2	1	3com23	$⊢ (A \in ℝ \land B \in ℝ \land C \in ℝ) \to (A < C \leftrightarrow A + B < C + B)$
3	2	3expa	$⊢ ((A \in ℝ \land B \in ℝ) \land C \in ℝ) \to (A < C \leftrightarrow A + B < C + B)$
4	3	adantrr	$⊢ ((A \in ℝ \land B \in ℝ) \land (C \in ℝ \land D \in ℝ)) \to (A < C \leftrightarrow A + B < C + B)$
5		leadd2	$⊢ (B \in ℝ \land D \in ℝ \land C \in ℝ) \to (B \leq D \leftrightarrow C + B \leq C + D)$
6	5	3com23	$⊢ (B \in ℝ \land C \in ℝ \land D \in ℝ) \to (B \leq D \leftrightarrow C + B \leq C + D)$
7	6	3expb	$⊢ (B \in ℝ \land (C \in ℝ \land D \in ℝ)) \to (B \leq D \leftrightarrow C + B \leq C + D)$
8	7	adantll	$⊢ ((A \in ℝ \land B \in ℝ) \land (C \in ℝ \land D \in ℝ)) \to (B \leq D \leftrightarrow C + B \leq C + D)$
9	4 8	anbi12d	$⊢ ((A \in ℝ \land B \in ℝ) \land (C \in ℝ \land D \in ℝ)) \to ((A < C \land B \leq D) \leftrightarrow (A + B < C + B \land C + B \leq C + D))$
10		readdcl	$⊢ (A \in ℝ \land B \in ℝ) \to A + B \in ℝ$
11	10	adantr	$⊢ ((A \in ℝ \land B \in ℝ) \land (C \in ℝ \land D \in ℝ)) \to A + B \in ℝ$
12		readdcl	$⊢ (C \in ℝ \land B \in ℝ) \to C + B \in ℝ$
13	12	ancoms	$⊢ (B \in ℝ \land C \in ℝ) \to C + B \in ℝ$
14	13	ad2ant2lr	$⊢ ((A \in ℝ \land B \in ℝ) \land (C \in ℝ \land D \in ℝ)) \to C + B \in ℝ$
15		readdcl	$⊢ (C \in ℝ \land D \in ℝ) \to C + D \in ℝ$
16	15	adantl	$⊢ ((A \in ℝ \land B \in ℝ) \land (C \in ℝ \land D \in ℝ)) \to C + D \in ℝ$
17		ltletr	$⊢ (A + B \in ℝ \land C + B \in ℝ \land C + D \in ℝ) \to ((A + B < C + B \land C + B \leq C + D) \to A + B < C + D)$
18	11 14 16 17	syl3anc	$⊢ ((A \in ℝ \land B \in ℝ) \land (C \in ℝ \land D \in ℝ)) \to ((A + B < C + B \land C + B \leq C + D) \to A + B < C + D)$
19	9 18	sylbid	$⊢ ((A \in ℝ \land B \in ℝ) \land (C \in ℝ \land D \in ℝ)) \to ((A < C \land B \leq D) \to A + B < C + D)$