nnsum3primesprm - Mathbox for Alexander van der Vekens

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Theorem nnsum3primesprm 45130

Description: Every prime is "the sum of at most 3" (actually one - the prime itself) primes. (Contributed by AV, 2-Aug-2020.) (Proof shortened by AV, 17-Apr-2021.)

**Assertion**
Ref	Expression
nnsum3primesprm	⊢ (𝑃 ∈ ℙ → ∃𝑑 ∈ ℕ ∃𝑓 ∈ (ℙ ↑_m (1...𝑑))(𝑑 ≤ 3 ∧ 𝑃 = Σ𝑘 ∈ (1...𝑑)(𝑓‘𝑘)))

Distinct variable group: 𝑃,𝑑,𝑓,𝑘

**Proof of Theorem nnsum3primesprm**
Step	Hyp	Ref	Expression
1		1nn 11914	. 2 ⊢ 1 ∈ ℕ
2		1zzd 12281	. . . . 5 ⊢ (𝑃 ∈ ℙ → 1 ∈ ℤ)
3		id 22	. . . . 5 ⊢ (𝑃 ∈ ℙ → 𝑃 ∈ ℙ)
4	2, 3	fsnd 6742	. . . 4 ⊢ (𝑃 ∈ ℙ → {⟨1, 𝑃⟩}:{1}⟶ℙ)
5		prmex 16310	. . . . 5 ⊢ ℙ ∈ V
6		snex 5349	. . . . 5 ⊢ {1} ∈ V
7	5, 6	elmap 8617	. . . 4 ⊢ ({⟨1, 𝑃⟩} ∈ (ℙ ↑_m {1}) ↔ {⟨1, 𝑃⟩}:{1}⟶ℙ)
8	4, 7	sylibr 233	. . 3 ⊢ (𝑃 ∈ ℙ → {⟨1, 𝑃⟩} ∈ (ℙ ↑_m {1}))
9		1re 10906	. . . . . . 7 ⊢ 1 ∈ ℝ
10		simpl 482	. . . . . . 7 ⊢ ((𝑃 ∈ ℙ ∧ 𝑘 ∈ {1}) → 𝑃 ∈ ℙ)
11		fvsng 7034	. . . . . . 7 ⊢ ((1 ∈ ℝ ∧ 𝑃 ∈ ℙ) → ({⟨1, 𝑃⟩}‘1) = 𝑃)
12	9, 10, 11	sylancr 586	. . . . . 6 ⊢ ((𝑃 ∈ ℙ ∧ 𝑘 ∈ {1}) → ({⟨1, 𝑃⟩}‘1) = 𝑃)
13	12	sumeq2dv 15343	. . . . 5 ⊢ (𝑃 ∈ ℙ → Σ𝑘 ∈ {1} ({⟨1, 𝑃⟩}‘1) = Σ𝑘 ∈ {1}𝑃)
14		prmz 16308	. . . . . . 7 ⊢ (𝑃 ∈ ℙ → 𝑃 ∈ ℤ)
15	14	zcnd 12356	. . . . . 6 ⊢ (𝑃 ∈ ℙ → 𝑃 ∈ ℂ)
16		eqidd 2739	. . . . . . 7 ⊢ (𝑘 = 1 → 𝑃 = 𝑃)
17	16	sumsn 15386	. . . . . 6 ⊢ ((1 ∈ ℝ ∧ 𝑃 ∈ ℂ) → Σ𝑘 ∈ {1}𝑃 = 𝑃)
18	9, 15, 17	sylancr 586	. . . . 5 ⊢ (𝑃 ∈ ℙ → Σ𝑘 ∈ {1}𝑃 = 𝑃)
19	13, 18	eqtr2d 2779	. . . 4 ⊢ (𝑃 ∈ ℙ → 𝑃 = Σ𝑘 ∈ {1} ({⟨1, 𝑃⟩}‘1))
20		1le3 12115	. . . 4 ⊢ 1 ≤ 3
21	19, 20	jctil 519	. . 3 ⊢ (𝑃 ∈ ℙ → (1 ≤ 3 ∧ 𝑃 = Σ𝑘 ∈ {1} ({⟨1, 𝑃⟩}‘1)))
22		simpl 482	. . . . . . . 8 ⊢ ((𝑓 = {⟨1, 𝑃⟩} ∧ 𝑘 ∈ {1}) → 𝑓 = {⟨1, 𝑃⟩})
23		elsni 4575	. . . . . . . . 9 ⊢ (𝑘 ∈ {1} → 𝑘 = 1)
24	23	adantl 481	. . . . . . . 8 ⊢ ((𝑓 = {⟨1, 𝑃⟩} ∧ 𝑘 ∈ {1}) → 𝑘 = 1)
25	22, 24	fveq12d 6763	. . . . . . 7 ⊢ ((𝑓 = {⟨1, 𝑃⟩} ∧ 𝑘 ∈ {1}) → (𝑓‘𝑘) = ({⟨1, 𝑃⟩}‘1))
26	25	sumeq2dv 15343	. . . . . 6 ⊢ (𝑓 = {⟨1, 𝑃⟩} → Σ𝑘 ∈ {1} (𝑓‘𝑘) = Σ𝑘 ∈ {1} ({⟨1, 𝑃⟩}‘1))
27	26	eqeq2d 2749	. . . . 5 ⊢ (𝑓 = {⟨1, 𝑃⟩} → (𝑃 = Σ𝑘 ∈ {1} (𝑓‘𝑘) ↔ 𝑃 = Σ𝑘 ∈ {1} ({⟨1, 𝑃⟩}‘1)))
28	27	anbi2d 628	. . . 4 ⊢ (𝑓 = {⟨1, 𝑃⟩} → ((1 ≤ 3 ∧ 𝑃 = Σ𝑘 ∈ {1} (𝑓‘𝑘)) ↔ (1 ≤ 3 ∧ 𝑃 = Σ𝑘 ∈ {1} ({⟨1, 𝑃⟩}‘1))))
29	28	rspcev 3552	. . 3 ⊢ (({⟨1, 𝑃⟩} ∈ (ℙ ↑_m {1}) ∧ (1 ≤ 3 ∧ 𝑃 = Σ𝑘 ∈ {1} ({⟨1, 𝑃⟩}‘1))) → ∃𝑓 ∈ (ℙ ↑_m {1})(1 ≤ 3 ∧ 𝑃 = Σ𝑘 ∈ {1} (𝑓‘𝑘)))
30	8, 21, 29	syl2anc 583	. 2 ⊢ (𝑃 ∈ ℙ → ∃𝑓 ∈ (ℙ ↑_m {1})(1 ≤ 3 ∧ 𝑃 = Σ𝑘 ∈ {1} (𝑓‘𝑘)))
31		oveq2 7263	. . . . . 6 ⊢ (𝑑 = 1 → (1...𝑑) = (1...1))
32		1z 12280	. . . . . . 7 ⊢ 1 ∈ ℤ
33		fzsn 13227	. . . . . . 7 ⊢ (1 ∈ ℤ → (1...1) = {1})
34	32, 33	ax-mp 5	. . . . . 6 ⊢ (1...1) = {1}
35	31, 34	eqtrdi 2795	. . . . 5 ⊢ (𝑑 = 1 → (1...𝑑) = {1})
36	35	oveq2d 7271	. . . 4 ⊢ (𝑑 = 1 → (ℙ ↑_m (1...𝑑)) = (ℙ ↑_m {1}))
37		breq1 5073	. . . . 5 ⊢ (𝑑 = 1 → (𝑑 ≤ 3 ↔ 1 ≤ 3))
38	35	sumeq1d 15341	. . . . . 6 ⊢ (𝑑 = 1 → Σ𝑘 ∈ (1...𝑑)(𝑓‘𝑘) = Σ𝑘 ∈ {1} (𝑓‘𝑘))
39	38	eqeq2d 2749	. . . . 5 ⊢ (𝑑 = 1 → (𝑃 = Σ𝑘 ∈ (1...𝑑)(𝑓‘𝑘) ↔ 𝑃 = Σ𝑘 ∈ {1} (𝑓‘𝑘)))
40	37, 39	anbi12d 630	. . . 4 ⊢ (𝑑 = 1 → ((𝑑 ≤ 3 ∧ 𝑃 = Σ𝑘 ∈ (1...𝑑)(𝑓‘𝑘)) ↔ (1 ≤ 3 ∧ 𝑃 = Σ𝑘 ∈ {1} (𝑓‘𝑘))))
41	36, 40	rexeqbidv 3328	. . 3 ⊢ (𝑑 = 1 → (∃𝑓 ∈ (ℙ ↑_m (1...𝑑))(𝑑 ≤ 3 ∧ 𝑃 = Σ𝑘 ∈ (1...𝑑)(𝑓‘𝑘)) ↔ ∃𝑓 ∈ (ℙ ↑_m {1})(1 ≤ 3 ∧ 𝑃 = Σ𝑘 ∈ {1} (𝑓‘𝑘))))
42	41	rspcev 3552	. 2 ⊢ ((1 ∈ ℕ ∧ ∃𝑓 ∈ (ℙ ↑_m {1})(1 ≤ 3 ∧ 𝑃 = Σ𝑘 ∈ {1} (𝑓‘𝑘))) → ∃𝑑 ∈ ℕ ∃𝑓 ∈ (ℙ ↑_m (1...𝑑))(𝑑 ≤ 3 ∧ 𝑃 = Σ𝑘 ∈ (1...𝑑)(𝑓‘𝑘)))
43	1, 30, 42	sylancr 586	1 ⊢ (𝑃 ∈ ℙ → ∃𝑑 ∈ ℕ ∃𝑓 ∈ (ℙ ↑_m (1...𝑑))(𝑑 ≤ 3 ∧ 𝑃 = Σ𝑘 ∈ (1...𝑑)(𝑓‘𝑘)))

Colors of variables: wff setvar class

Syntax hints: → wi 4 ∧ wa 395 = wceq 1539 ∈ wcel 2108 ∃wrex 3064 {csn 4558 ⟨cop 4564 class class class wbr 5070 ⟶wf 6414 ‘cfv 6418 (class class class)co 7255 ↑_m cmap 8573 ℂcc 10800 ℝcr 10801 1c1 10803 ≤ cle 10941 ℕcn 11903 3c3 11959 ℤcz 12249 ...cfz 13168 Σcsu 15325 ℙcprime 16304

This theorem was proved from axioms: ax-mp 5 ax-1 6 ax-2 7 ax-3 8 ax-gen 1799 ax-4 1813 ax-5 1914 ax-6 1972 ax-7 2012 ax-8 2110 ax-9 2118 ax-10 2139 ax-11 2156 ax-12 2173 ax-ext 2709 ax-rep 5205 ax-sep 5218 ax-nul 5225 ax-pow 5283 ax-pr 5347 ax-un 7566 ax-inf2 9329 ax-cnex 10858 ax-resscn 10859 ax-1cn 10860 ax-icn 10861 ax-addcl 10862 ax-addrcl 10863 ax-mulcl 10864 ax-mulrcl 10865 ax-mulcom 10866 ax-addass 10867 ax-mulass 10868 ax-distr 10869 ax-i2m1 10870 ax-1ne0 10871 ax-1rid 10872 ax-rnegex 10873 ax-rrecex 10874 ax-cnre 10875 ax-pre-lttri 10876 ax-pre-lttrn 10877 ax-pre-ltadd 10878 ax-pre-mulgt0 10879 ax-pre-sup 10880

This theorem depends on definitions: df-bi 206 df-an 396 df-or 844 df-3or 1086 df-3an 1087 df-tru 1542 df-fal 1552 df-ex 1784 df-nf 1788 df-sb 2069 df-mo 2540 df-eu 2569 df-clab 2716 df-cleq 2730 df-clel 2817 df-nfc 2888 df-ne 2943 df-nel 3049 df-ral 3068 df-rex 3069 df-reu 3070 df-rmo 3071 df-rab 3072 df-v 3424 df-sbc 3712 df-csb 3829 df-dif 3886 df-un 3888 df-in 3890 df-ss 3900 df-pss 3902 df-nul 4254 df-if 4457 df-pw 4532 df-sn 4559 df-pr 4561 df-tp 4563 df-op 4565 df-uni 4837 df-int 4877 df-iun 4923 df-br 5071 df-opab 5133 df-mpt 5154 df-tr 5188 df-id 5480 df-eprel 5486 df-po 5494 df-so 5495 df-fr 5535 df-se 5536 df-we 5537 df-xp 5586 df-rel 5587 df-cnv 5588 df-co 5589 df-dm 5590 df-rn 5591 df-res 5592 df-ima 5593 df-pred 6191 df-ord 6254 df-on 6255 df-lim 6256 df-suc 6257 df-iota 6376 df-fun 6420 df-fn 6421 df-f 6422 df-f1 6423 df-fo 6424 df-f1o 6425 df-fv 6426 df-isom 6427 df-riota 7212 df-ov 7258 df-oprab 7259 df-mpo 7260 df-om 7688 df-1st 7804 df-2nd 7805 df-frecs 8068 df-wrecs 8099 df-recs 8173 df-rdg 8212 df-1o 8267 df-er 8456 df-map 8575 df-en 8692 df-dom 8693 df-sdom 8694 df-fin 8695 df-sup 9131 df-oi 9199 df-card 9628 df-pnf 10942 df-mnf 10943 df-xr 10944 df-ltxr 10945 df-le 10946 df-sub 11137 df-neg 11138 df-div 11563 df-nn 11904 df-2 11966 df-3 11967 df-n0 12164 df-z 12250 df-uz 12512 df-rp 12660 df-fz 13169 df-fzo 13312 df-seq 13650 df-exp 13711 df-hash 13973 df-cj 14738 df-re 14739 df-im 14740 df-sqrt 14874 df-abs 14875 df-clim 15125 df-sum 15326 df-prm 16305

This theorem is referenced by: nnsum4primesprm 45131 nnsum3primesle9 45134

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