dgrsub

Description: The degree of a difference of polynomials is at most the maximum of the degrees. (Contributed by Mario Carneiro, 26-Jul-2014)

	Ref	Expression
Hypotheses	dgrsub.1	\|- M = ( deg ` F )
	dgrsub.2	\|- N = ( deg ` G )
Assertion	dgrsub	\|- ( ( F e. ( Poly ` S ) /\ G e. ( Poly ` S ) ) -> ( deg ` ( F oF - G ) ) <_ if ( M <_ N , N , M ) )

Proof

Step	Hyp	Ref	Expression
1		dgrsub.1	\|- M = ( deg ` F )
2		dgrsub.2	\|- N = ( deg ` G )
3		plyssc	\|- ( Poly ` S ) C_ ( Poly ` CC )
4	3	sseli	\|- ( F e. ( Poly ` S ) -> F e. ( Poly ` CC ) )
5		ssid	\|- CC C_ CC
6		neg1cn	\|- -u 1 e. CC
7		plyconst	\|- ( ( CC C_ CC /\ -u 1 e. CC ) -> ( CC X. { -u 1 } ) e. ( Poly ` CC ) )
8	5 6 7	mp2an	\|- ( CC X. { -u 1 } ) e. ( Poly ` CC )
9	3	sseli	\|- ( G e. ( Poly ` S ) -> G e. ( Poly ` CC ) )
10		plymulcl	\|- ( ( ( CC X. { -u 1 } ) e. ( Poly ` CC ) /\ G e. ( Poly ` CC ) ) -> ( ( CC X. { -u 1 } ) oF x. G ) e. ( Poly ` CC ) )
11	8 9 10	sylancr	\|- ( G e. ( Poly ` S ) -> ( ( CC X. { -u 1 } ) oF x. G ) e. ( Poly ` CC ) )
12		eqid	\|- ( deg ` ( ( CC X. { -u 1 } ) oF x. G ) ) = ( deg ` ( ( CC X. { -u 1 } ) oF x. G ) )
13	1 12	dgradd	\|- ( ( F e. ( Poly ` CC ) /\ ( ( CC X. { -u 1 } ) oF x. G ) e. ( Poly ` CC ) ) -> ( deg ` ( F oF + ( ( CC X. { -u 1 } ) oF x. G ) ) ) <_ if ( M <_ ( deg ` ( ( CC X. { -u 1 } ) oF x. G ) ) , ( deg ` ( ( CC X. { -u 1 } ) oF x. G ) ) , M ) )
14	4 11 13	syl2an	\|- ( ( F e. ( Poly ` S ) /\ G e. ( Poly ` S ) ) -> ( deg ` ( F oF + ( ( CC X. { -u 1 } ) oF x. G ) ) ) <_ if ( M <_ ( deg ` ( ( CC X. { -u 1 } ) oF x. G ) ) , ( deg ` ( ( CC X. { -u 1 } ) oF x. G ) ) , M ) )
15		cnex	\|- CC e. _V
16		plyf	\|- ( F e. ( Poly ` S ) -> F : CC --> CC )
17		plyf	\|- ( G e. ( Poly ` S ) -> G : CC --> CC )
18		ofnegsub	\|- ( ( CC e. _V /\ F : CC --> CC /\ G : CC --> CC ) -> ( F oF + ( ( CC X. { -u 1 } ) oF x. G ) ) = ( F oF - G ) )
19	15 16 17 18	mp3an3an	\|- ( ( F e. ( Poly ` S ) /\ G e. ( Poly ` S ) ) -> ( F oF + ( ( CC X. { -u 1 } ) oF x. G ) ) = ( F oF - G ) )
20	19	fveq2d	\|- ( ( F e. ( Poly ` S ) /\ G e. ( Poly ` S ) ) -> ( deg ` ( F oF + ( ( CC X. { -u 1 } ) oF x. G ) ) ) = ( deg ` ( F oF - G ) ) )
21		neg1ne0	\|- -u 1 =/= 0
22		dgrmulc	\|- ( ( -u 1 e. CC /\ -u 1 =/= 0 /\ G e. ( Poly ` S ) ) -> ( deg ` ( ( CC X. { -u 1 } ) oF x. G ) ) = ( deg ` G ) )
23	6 21 22	mp3an12	\|- ( G e. ( Poly ` S ) -> ( deg ` ( ( CC X. { -u 1 } ) oF x. G ) ) = ( deg ` G ) )
24	23 2	eqtr4di	\|- ( G e. ( Poly ` S ) -> ( deg ` ( ( CC X. { -u 1 } ) oF x. G ) ) = N )
25	24	adantl	\|- ( ( F e. ( Poly ` S ) /\ G e. ( Poly ` S ) ) -> ( deg ` ( ( CC X. { -u 1 } ) oF x. G ) ) = N )
26	25	breq2d	\|- ( ( F e. ( Poly ` S ) /\ G e. ( Poly ` S ) ) -> ( M <_ ( deg ` ( ( CC X. { -u 1 } ) oF x. G ) ) <-> M <_ N ) )
27	26 25	ifbieq1d	\|- ( ( F e. ( Poly ` S ) /\ G e. ( Poly ` S ) ) -> if ( M <_ ( deg ` ( ( CC X. { -u 1 } ) oF x. G ) ) , ( deg ` ( ( CC X. { -u 1 } ) oF x. G ) ) , M ) = if ( M <_ N , N , M ) )
28	14 20 27	3brtr3d	\|- ( ( F e. ( Poly ` S ) /\ G e. ( Poly ` S ) ) -> ( deg ` ( F oF - G ) ) <_ if ( M <_ N , N , M ) )

Metamath Proof Explorer

Theorem dgrsub

Proof