cpmidgsum

Description: Representation of the identity matrix multiplied with the characteristic polynomial of a matrix as group sum. (Contributed by AV, 7-Nov-2019)

	Ref	Expression
Hypotheses	cpmidgsum.a	$⊢ A = N Mat R$
	cpmidgsum.b	$⊢ B = {Base}_{A}$
	cpmidgsum.p	$⊢ P = {Poly}_{1} (R)$
	cpmidgsum.y	$⊢ Y = N Mat P$
	cpmidgsum.x	$⊢ X = {var}_{1} (R)$
	cpmidgsum.e	$⊢ \underset{˙}{\times} = \cdot_{{mulGrp}_{P}}$
	cpmidgsum.m	$⊢ \underset{˙}{\cdot} = \cdot_{Y}$
	cpmidgsum.1	$⊢ \underset{˙}{1} = 1_{Y}$
	cpmidgsum.u	$⊢ U = algSc (P)$
	cpmidgsum.c	$⊢ C = N CharPlyMat R$
	cpmidgsum.k	$⊢ K = C (M)$
	cpmidgsum.h	$⊢ H = K \underset{˙}{\cdot} \underset{˙}{1}$
Assertion	cpmidgsum	$⊢ (N \in Fin \land R \in CRing \land M \in B) \to H = \underset{n \in ℕ_{0}}{\sum_{Y}} ((n \underset{˙}{\times} X) \underset{˙}{\cdot} (U ({coe}_{1} (K) (n)) \underset{˙}{\cdot} \underset{˙}{1}))$

Proof

Step	Hyp	Ref	Expression
1		cpmidgsum.a	$⊢ A = N Mat R$
2		cpmidgsum.b	$⊢ B = {Base}_{A}$
3		cpmidgsum.p	$⊢ P = {Poly}_{1} (R)$
4		cpmidgsum.y	$⊢ Y = N Mat P$
5		cpmidgsum.x	$⊢ X = {var}_{1} (R)$
6		cpmidgsum.e	$⊢ \underset{˙}{\times} = \cdot_{{mulGrp}_{P}}$
7		cpmidgsum.m	$⊢ \underset{˙}{\cdot} = \cdot_{Y}$
8		cpmidgsum.1	$⊢ \underset{˙}{1} = 1_{Y}$
9		cpmidgsum.u	$⊢ U = algSc (P)$
10		cpmidgsum.c	$⊢ C = N CharPlyMat R$
11		cpmidgsum.k	$⊢ K = C (M)$
12		cpmidgsum.h	$⊢ H = K \underset{˙}{\cdot} \underset{˙}{1}$
13		eqid	$⊢ {Base}_{P} = {Base}_{P}$
14	10 1 2 3 13	chpmatply1	$⊢ (N \in Fin \land R \in CRing \land M \in B) \to C (M) \in {Base}_{P}$
15	11 14	eqeltrid	$⊢ (N \in Fin \land R \in CRing \land M \in B) \to K \in {Base}_{P}$
16		eqid	$⊢ {Base}_{Y} = {Base}_{Y}$
17		eqid	$⊢ N matToPolyMat R = N matToPolyMat R$
18		eqid	$⊢ {Base}_{R} = {Base}_{R}$
19	3 4 16 7 6 5 17 1 2 9 18 13 9 8 12	pmatcollpwscmat	$⊢ (N \in Fin \land R \in CRing \land K \in {Base}_{P}) \to H = \underset{n \in ℕ_{0}}{\sum_{Y}} ((n \underset{˙}{\times} X) \underset{˙}{\cdot} (U ({coe}_{1} (K) (n)) \underset{˙}{\cdot} \underset{˙}{1}))$
20	15 19	syld3an3	$⊢ (N \in Fin \land R \in CRing \land M \in B) \to H = \underset{n \in ℕ_{0}}{\sum_{Y}} ((n \underset{˙}{\times} X) \underset{˙}{\cdot} (U ({coe}_{1} (K) (n)) \underset{˙}{\cdot} \underset{˙}{1}))$

Metamath Proof Explorer

Theorem cpmidgsum

Proof