Metamath Proof Explorer

Theorem leltaddd

Description: Adding both sides of two orderings. (Contributed by Mario Carneiro, 27-May-2016)

Ref Expression
Hypotheses leidd.1 
|- ( ph -> A e. RR )
ltnegd.2 
|- ( ph -> B e. RR )
ltadd1d.3 
|- ( ph -> C e. RR )
lt2addd.4 
|- ( ph -> D e. RR )
leltaddd.5 
|- ( ph -> A <_ C )
leltaddd.6 
|- ( ph -> B < D )
Assertion leltaddd 
|- ( ph -> ( A + B ) < ( C + D ) )

Proof

Step Hyp Ref Expression
1 leidd.1 
 |-  ( ph -> A e. RR )
2 ltnegd.2 
 |-  ( ph -> B e. RR )
3 ltadd1d.3 
 |-  ( ph -> C e. RR )
4 lt2addd.4 
 |-  ( ph -> D e. RR )
5 leltaddd.5 
 |-  ( ph -> A <_ C )
6 leltaddd.6 
 |-  ( ph -> B < D )
7 leltadd 
 |-  ( ( ( A e. RR /\ B e. RR ) /\ ( C e. RR /\ D e. RR ) ) -> ( ( A <_ C /\ B < D ) -> ( A + B ) < ( C + D ) ) )
8 1 2 3 4 7 syl22anc 
 |-  ( ph -> ( ( A <_ C /\ B < D ) -> ( A + B ) < ( C + D ) ) )
9 5 6 8 mp2and 
 |-  ( ph -> ( A + B ) < ( C + D ) )