facubnd - Intuitionistic Logic Explorer

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Theorem facubnd 9672

Description: An upper bound for the factorial function. (Contributed by Mario Carneiro, 15-Apr-2016.)

**Assertion**
Ref	Expression
facubnd	⊢ (𝑁 ∈ ℕ₀ → (!‘𝑁) ≤ (𝑁↑𝑁))

Proof of Theorem facubnd Dummy variables 𝑚 𝑘 are mutually distinct and distinct from all other variables.

Step	Hyp	Ref	Expression
1		fveq2 5198	. . . 4 ⊢ (𝑚 = 0 → (!‘𝑚) = (!‘0))
2		fac0 9655	. . . 4 ⊢ (!‘0) = 1
3	1, 2	syl6eq 2129	. . 3 ⊢ (𝑚 = 0 → (!‘𝑚) = 1)
4		id 19	. . . . 5 ⊢ (𝑚 = 0 → 𝑚 = 0)
5	4, 4	oveq12d 5550	. . . 4 ⊢ (𝑚 = 0 → (𝑚↑𝑚) = (0↑0))
6		0exp0e1 9481	. . . 4 ⊢ (0↑0) = 1
7	5, 6	syl6eq 2129	. . 3 ⊢ (𝑚 = 0 → (𝑚↑𝑚) = 1)
8	3, 7	breq12d 3798	. 2 ⊢ (𝑚 = 0 → ((!‘𝑚) ≤ (𝑚↑𝑚) ↔ 1 ≤ 1))
9		fveq2 5198	. . 3 ⊢ (𝑚 = 𝑘 → (!‘𝑚) = (!‘𝑘))
10		id 19	. . . 4 ⊢ (𝑚 = 𝑘 → 𝑚 = 𝑘)
11	10, 10	oveq12d 5550	. . 3 ⊢ (𝑚 = 𝑘 → (𝑚↑𝑚) = (𝑘↑𝑘))
12	9, 11	breq12d 3798	. 2 ⊢ (𝑚 = 𝑘 → ((!‘𝑚) ≤ (𝑚↑𝑚) ↔ (!‘𝑘) ≤ (𝑘↑𝑘)))
13		fveq2 5198	. . 3 ⊢ (𝑚 = (𝑘 + 1) → (!‘𝑚) = (!‘(𝑘 + 1)))
14		id 19	. . . 4 ⊢ (𝑚 = (𝑘 + 1) → 𝑚 = (𝑘 + 1))
15	14, 14	oveq12d 5550	. . 3 ⊢ (𝑚 = (𝑘 + 1) → (𝑚↑𝑚) = ((𝑘 + 1)↑(𝑘 + 1)))
16	13, 15	breq12d 3798	. 2 ⊢ (𝑚 = (𝑘 + 1) → ((!‘𝑚) ≤ (𝑚↑𝑚) ↔ (!‘(𝑘 + 1)) ≤ ((𝑘 + 1)↑(𝑘 + 1))))
17		fveq2 5198	. . 3 ⊢ (𝑚 = 𝑁 → (!‘𝑚) = (!‘𝑁))
18		id 19	. . . 4 ⊢ (𝑚 = 𝑁 → 𝑚 = 𝑁)
19	18, 18	oveq12d 5550	. . 3 ⊢ (𝑚 = 𝑁 → (𝑚↑𝑚) = (𝑁↑𝑁))
20	17, 19	breq12d 3798	. 2 ⊢ (𝑚 = 𝑁 → ((!‘𝑚) ≤ (𝑚↑𝑚) ↔ (!‘𝑁) ≤ (𝑁↑𝑁)))
21		1le1 7672	. 2 ⊢ 1 ≤ 1
22		faccl 9662	. . . . . . . 8 ⊢ (𝑘 ∈ ℕ₀ → (!‘𝑘) ∈ ℕ)
23	22	adantr 270	. . . . . . 7 ⊢ ((𝑘 ∈ ℕ₀ ∧ (!‘𝑘) ≤ (𝑘↑𝑘)) → (!‘𝑘) ∈ ℕ)
24	23	nnred 8052	. . . . . 6 ⊢ ((𝑘 ∈ ℕ₀ ∧ (!‘𝑘) ≤ (𝑘↑𝑘)) → (!‘𝑘) ∈ ℝ)
25		nn0re 8297	. . . . . . . 8 ⊢ (𝑘 ∈ ℕ₀ → 𝑘 ∈ ℝ)
26	25	adantr 270	. . . . . . 7 ⊢ ((𝑘 ∈ ℕ₀ ∧ (!‘𝑘) ≤ (𝑘↑𝑘)) → 𝑘 ∈ ℝ)
27		simpl 107	. . . . . . 7 ⊢ ((𝑘 ∈ ℕ₀ ∧ (!‘𝑘) ≤ (𝑘↑𝑘)) → 𝑘 ∈ ℕ₀)
28	26, 27	reexpcld 9622	. . . . . 6 ⊢ ((𝑘 ∈ ℕ₀ ∧ (!‘𝑘) ≤ (𝑘↑𝑘)) → (𝑘↑𝑘) ∈ ℝ)
29		nn0p1nn 8327	. . . . . . . . 9 ⊢ (𝑘 ∈ ℕ₀ → (𝑘 + 1) ∈ ℕ)
30	29	adantr 270	. . . . . . . 8 ⊢ ((𝑘 ∈ ℕ₀ ∧ (!‘𝑘) ≤ (𝑘↑𝑘)) → (𝑘 + 1) ∈ ℕ)
31	30	nnred 8052	. . . . . . 7 ⊢ ((𝑘 ∈ ℕ₀ ∧ (!‘𝑘) ≤ (𝑘↑𝑘)) → (𝑘 + 1) ∈ ℝ)
32	31, 27	reexpcld 9622	. . . . . 6 ⊢ ((𝑘 ∈ ℕ₀ ∧ (!‘𝑘) ≤ (𝑘↑𝑘)) → ((𝑘 + 1)↑𝑘) ∈ ℝ)
33		simpr 108	. . . . . 6 ⊢ ((𝑘 ∈ ℕ₀ ∧ (!‘𝑘) ≤ (𝑘↑𝑘)) → (!‘𝑘) ≤ (𝑘↑𝑘))
34		nn0ge0 8313	. . . . . . . 8 ⊢ (𝑘 ∈ ℕ₀ → 0 ≤ 𝑘)
35	34	adantr 270	. . . . . . 7 ⊢ ((𝑘 ∈ ℕ₀ ∧ (!‘𝑘) ≤ (𝑘↑𝑘)) → 0 ≤ 𝑘)
36	26	lep1d 8009	. . . . . . 7 ⊢ ((𝑘 ∈ ℕ₀ ∧ (!‘𝑘) ≤ (𝑘↑𝑘)) → 𝑘 ≤ (𝑘 + 1))
37		leexp1a 9531	. . . . . . 7 ⊢ (((𝑘 ∈ ℝ ∧ (𝑘 + 1) ∈ ℝ ∧ 𝑘 ∈ ℕ₀) ∧ (0 ≤ 𝑘 ∧ 𝑘 ≤ (𝑘 + 1))) → (𝑘↑𝑘) ≤ ((𝑘 + 1)↑𝑘))
38	26, 31, 27, 35, 36, 37	syl32anc 1177	. . . . . 6 ⊢ ((𝑘 ∈ ℕ₀ ∧ (!‘𝑘) ≤ (𝑘↑𝑘)) → (𝑘↑𝑘) ≤ ((𝑘 + 1)↑𝑘))
39	24, 28, 32, 33, 38	letrd 7233	. . . . 5 ⊢ ((𝑘 ∈ ℕ₀ ∧ (!‘𝑘) ≤ (𝑘↑𝑘)) → (!‘𝑘) ≤ ((𝑘 + 1)↑𝑘))
40	30	nngt0d 8082	. . . . . 6 ⊢ ((𝑘 ∈ ℕ₀ ∧ (!‘𝑘) ≤ (𝑘↑𝑘)) → 0 < (𝑘 + 1))
41		lemul1 7693	. . . . . 6 ⊢ (((!‘𝑘) ∈ ℝ ∧ ((𝑘 + 1)↑𝑘) ∈ ℝ ∧ ((𝑘 + 1) ∈ ℝ ∧ 0 < (𝑘 + 1))) → ((!‘𝑘) ≤ ((𝑘 + 1)↑𝑘) ↔ ((!‘𝑘) · (𝑘 + 1)) ≤ (((𝑘 + 1)↑𝑘) · (𝑘 + 1))))
42	24, 32, 31, 40, 41	syl112anc 1173	. . . . 5 ⊢ ((𝑘 ∈ ℕ₀ ∧ (!‘𝑘) ≤ (𝑘↑𝑘)) → ((!‘𝑘) ≤ ((𝑘 + 1)↑𝑘) ↔ ((!‘𝑘) · (𝑘 + 1)) ≤ (((𝑘 + 1)↑𝑘) · (𝑘 + 1))))
43	39, 42	mpbid 145	. . . 4 ⊢ ((𝑘 ∈ ℕ₀ ∧ (!‘𝑘) ≤ (𝑘↑𝑘)) → ((!‘𝑘) · (𝑘 + 1)) ≤ (((𝑘 + 1)↑𝑘) · (𝑘 + 1)))
44		facp1 9657	. . . . 5 ⊢ (𝑘 ∈ ℕ₀ → (!‘(𝑘 + 1)) = ((!‘𝑘) · (𝑘 + 1)))
45	44	adantr 270	. . . 4 ⊢ ((𝑘 ∈ ℕ₀ ∧ (!‘𝑘) ≤ (𝑘↑𝑘)) → (!‘(𝑘 + 1)) = ((!‘𝑘) · (𝑘 + 1)))
46	30	nncnd 8053	. . . . 5 ⊢ ((𝑘 ∈ ℕ₀ ∧ (!‘𝑘) ≤ (𝑘↑𝑘)) → (𝑘 + 1) ∈ ℂ)
47	46, 27	expp1d 9606	. . . 4 ⊢ ((𝑘 ∈ ℕ₀ ∧ (!‘𝑘) ≤ (𝑘↑𝑘)) → ((𝑘 + 1)↑(𝑘 + 1)) = (((𝑘 + 1)↑𝑘) · (𝑘 + 1)))
48	43, 45, 47	3brtr4d 3815	. . 3 ⊢ ((𝑘 ∈ ℕ₀ ∧ (!‘𝑘) ≤ (𝑘↑𝑘)) → (!‘(𝑘 + 1)) ≤ ((𝑘 + 1)↑(𝑘 + 1)))
49	48	ex 113	. 2 ⊢ (𝑘 ∈ ℕ₀ → ((!‘𝑘) ≤ (𝑘↑𝑘) → (!‘(𝑘 + 1)) ≤ ((𝑘 + 1)↑(𝑘 + 1))))
50	8, 12, 16, 20, 21, 49	nn0ind 8461	1 ⊢ (𝑁 ∈ ℕ₀ → (!‘𝑁) ≤ (𝑁↑𝑁))

Colors of variables: wff set class

Syntax hints: → wi 4 ∧ wa 102 ↔ wb 103 = wceq 1284 ∈ wcel 1433 class class class wbr 3785 ‘cfv 4922 (class class class)co 5532 ℝcr 6980 0cc0 6981 1c1 6982 + caddc 6984 · cmul 6986 < clt 7153 ≤ cle 7154 ℕcn 8039 ℕ₀cn0 8288 ↑cexp 9475 !cfa 9652

This theorem was proved from axioms: ax-1 5 ax-2 6 ax-mp 7 ax-ia1 104 ax-ia2 105 ax-ia3 106 ax-in1 576 ax-in2 577 ax-io 662 ax-5 1376 ax-7 1377 ax-gen 1378 ax-ie1 1422 ax-ie2 1423 ax-8 1435 ax-10 1436 ax-11 1437 ax-i12 1438 ax-bndl 1439 ax-4 1440 ax-13 1444 ax-14 1445 ax-17 1459 ax-i9 1463 ax-ial 1467 ax-i5r 1468 ax-ext 2063 ax-coll 3893 ax-sep 3896 ax-nul 3904 ax-pow 3948 ax-pr 3964 ax-un 4188 ax-setind 4280 ax-iinf 4329 ax-cnex 7067 ax-resscn 7068 ax-1cn 7069 ax-1re 7070 ax-icn 7071 ax-addcl 7072 ax-addrcl 7073 ax-mulcl 7074 ax-mulrcl 7075 ax-addcom 7076 ax-mulcom 7077 ax-addass 7078 ax-mulass 7079 ax-distr 7080 ax-i2m1 7081 ax-0lt1 7082 ax-1rid 7083 ax-0id 7084 ax-rnegex 7085 ax-precex 7086 ax-cnre 7087 ax-pre-ltirr 7088 ax-pre-ltwlin 7089 ax-pre-lttrn 7090 ax-pre-apti 7091 ax-pre-ltadd 7092 ax-pre-mulgt0 7093 ax-pre-mulext 7094

This theorem depends on definitions: df-bi 115 df-dc 776 df-3or 920 df-3an 921 df-tru 1287 df-fal 1290 df-nf 1390 df-sb 1686 df-eu 1944 df-mo 1945 df-clab 2068 df-cleq 2074 df-clel 2077 df-nfc 2208 df-ne 2246 df-nel 2340 df-ral 2353 df-rex 2354 df-reu 2355 df-rmo 2356 df-rab 2357 df-v 2603 df-sbc 2816 df-csb 2909 df-dif 2975 df-un 2977 df-in 2979 df-ss 2986 df-nul 3252 df-if 3352 df-pw 3384 df-sn 3404 df-pr 3405 df-op 3407 df-uni 3602 df-int 3637 df-iun 3680 df-br 3786 df-opab 3840 df-mpt 3841 df-tr 3876 df-id 4048 df-po 4051 df-iso 4052 df-iord 4121 df-on 4123 df-suc 4126 df-iom 4332 df-xp 4369 df-rel 4370 df-cnv 4371 df-co 4372 df-dm 4373 df-rn 4374 df-res 4375 df-ima 4376 df-iota 4887 df-fun 4924 df-fn 4925 df-f 4926 df-f1 4927 df-fo 4928 df-f1o 4929 df-fv 4930 df-riota 5488 df-ov 5535 df-oprab 5536 df-mpt2 5537 df-1st 5787 df-2nd 5788 df-recs 5943 df-frec 6001 df-pnf 7155 df-mnf 7156 df-xr 7157 df-ltxr 7158 df-le 7159 df-sub 7281 df-neg 7282 df-reap 7675 df-ap 7682 df-div 7761 df-inn 8040 df-n0 8289 df-z 8352 df-uz 8620 df-iseq 9432 df-iexp 9476 df-fac 9653

This theorem is referenced by: (None)

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