Description: Complex number addition is a continuous function. Part of Proposition 14-4.16 of Gleason p. 243. (Contributed by NM, 30-Jul-2007) (Proof shortened by Mario Carneiro, 5-May-2014)
Ref | Expression | ||
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Hypothesis | addcn.j | |- J = ( TopOpen ` CCfld ) |
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Assertion | addcn | |- + e. ( ( J tX J ) Cn J ) |
Step | Hyp | Ref | Expression |
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1 | addcn.j | |- J = ( TopOpen ` CCfld ) |
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2 | ax-addf | |- + : ( CC X. CC ) --> CC |
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3 | addcn2 | |- ( ( a e. RR+ /\ b e. CC /\ c e. CC ) -> E. y e. RR+ E. z e. RR+ A. u e. CC A. v e. CC ( ( ( abs ` ( u - b ) ) < y /\ ( abs ` ( v - c ) ) < z ) -> ( abs ` ( ( u + v ) - ( b + c ) ) ) < a ) ) |
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4 | 1 2 3 | addcnlem | |- + e. ( ( J tX J ) Cn J ) |