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Theorem pntlemg 20579
Description: Lemma for pnt 20595. Closure for the constants used in the proof. For comparison with Equation 10.6.27 of [Shapiro], p. 434,  M is j^* and  N is ĵ. (Contributed by Mario Carneiro, 13-Apr-2016.)
Hypotheses
Ref Expression
pntlem1.r  |-  R  =  ( a  e.  RR+  |->  ( (ψ `  a )  -  a ) )
pntlem1.a  |-  ( ph  ->  A  e.  RR+ )
pntlem1.b  |-  ( ph  ->  B  e.  RR+ )
pntlem1.l  |-  ( ph  ->  L  e.  ( 0 (,) 1 ) )
pntlem1.d  |-  D  =  ( A  +  1 )
pntlem1.f  |-  F  =  ( ( 1  -  ( 1  /  D
) )  x.  (
( L  /  (; 3 2  x.  B ) )  /  ( D ^
2 ) ) )
pntlem1.u  |-  ( ph  ->  U  e.  RR+ )
pntlem1.u2  |-  ( ph  ->  U  <_  A )
pntlem1.e  |-  E  =  ( U  /  D
)
pntlem1.k  |-  K  =  ( exp `  ( B  /  E ) )
pntlem1.y  |-  ( ph  ->  ( Y  e.  RR+  /\  1  <_  Y )
)
pntlem1.x  |-  ( ph  ->  ( X  e.  RR+  /\  Y  <  X ) )
pntlem1.c  |-  ( ph  ->  C  e.  RR+ )
pntlem1.w  |-  W  =  ( ( ( Y  +  ( 4  / 
( L  x.  E
) ) ) ^
2 )  +  ( ( ( X  x.  ( K ^ 2 ) ) ^ 4 )  +  ( exp `  (
( (; 3 2  x.  B
)  /  ( ( U  -  E )  x.  ( L  x.  ( E ^ 2 ) ) ) )  x.  ( ( U  x.  3 )  +  C
) ) ) ) )
pntlem1.z  |-  ( ph  ->  Z  e.  ( W [,)  +oo ) )
pntlem1.m  |-  M  =  ( ( |_ `  ( ( log `  X
)  /  ( log `  K ) ) )  +  1 )
pntlem1.n  |-  N  =  ( |_ `  (
( ( log `  Z
)  /  ( log `  K ) )  / 
2 ) )
Assertion
Ref Expression
pntlemg  |-  ( ph  ->  ( M  e.  NN  /\  N  e.  ( ZZ>= `  M )  /\  (
( ( log `  Z
)  /  ( log `  K ) )  / 
4 )  <_  ( N  -  M )
) )
Distinct variable group:    E, a
Allowed substitution hints:    ph( a)    A( a)    B( a)    C( a)    D( a)    R( a)    U( a)    F( a)    K( a)    L( a)    M( a)    N( a)    W( a)    X( a)    Y( a)    Z( a)

Proof of Theorem pntlemg
StepHypRef Expression
1 pntlem1.m . . 3  |-  M  =  ( ( |_ `  ( ( log `  X
)  /  ( log `  K ) ) )  +  1 )
2 pntlem1.x . . . . . . . . 9  |-  ( ph  ->  ( X  e.  RR+  /\  Y  <  X ) )
32simpld 447 . . . . . . . 8  |-  ( ph  ->  X  e.  RR+ )
43rpred 10269 . . . . . . 7  |-  ( ph  ->  X  e.  RR )
5 1re 8717 . . . . . . . . 9  |-  1  e.  RR
65a1i 12 . . . . . . . 8  |-  ( ph  ->  1  e.  RR )
7 pntlem1.y . . . . . . . . . 10  |-  ( ph  ->  ( Y  e.  RR+  /\  1  <_  Y )
)
87simpld 447 . . . . . . . . 9  |-  ( ph  ->  Y  e.  RR+ )
98rpred 10269 . . . . . . . 8  |-  ( ph  ->  Y  e.  RR )
107simprd 451 . . . . . . . 8  |-  ( ph  ->  1  <_  Y )
112simprd 451 . . . . . . . 8  |-  ( ph  ->  Y  <  X )
126, 9, 4, 10, 11lelttrd 8854 . . . . . . 7  |-  ( ph  ->  1  <  X )
134, 12rplogcld 19812 . . . . . 6  |-  ( ph  ->  ( log `  X
)  e.  RR+ )
14 pntlem1.r . . . . . . . . . 10  |-  R  =  ( a  e.  RR+  |->  ( (ψ `  a )  -  a ) )
15 pntlem1.a . . . . . . . . . 10  |-  ( ph  ->  A  e.  RR+ )
16 pntlem1.b . . . . . . . . . 10  |-  ( ph  ->  B  e.  RR+ )
17 pntlem1.l . . . . . . . . . 10  |-  ( ph  ->  L  e.  ( 0 (,) 1 ) )
18 pntlem1.d . . . . . . . . . 10  |-  D  =  ( A  +  1 )
19 pntlem1.f . . . . . . . . . 10  |-  F  =  ( ( 1  -  ( 1  /  D
) )  x.  (
( L  /  (; 3 2  x.  B ) )  /  ( D ^
2 ) ) )
20 pntlem1.u . . . . . . . . . 10  |-  ( ph  ->  U  e.  RR+ )
21 pntlem1.u2 . . . . . . . . . 10  |-  ( ph  ->  U  <_  A )
22 pntlem1.e . . . . . . . . . 10  |-  E  =  ( U  /  D
)
23 pntlem1.k . . . . . . . . . 10  |-  K  =  ( exp `  ( B  /  E ) )
2414, 15, 16, 17, 18, 19, 20, 21, 22, 23pntlemc 20576 . . . . . . . . 9  |-  ( ph  ->  ( E  e.  RR+  /\  K  e.  RR+  /\  ( E  e.  ( 0 (,) 1 )  /\  1  <  K  /\  ( U  -  E )  e.  RR+ ) ) )
2524simp2d 973 . . . . . . . 8  |-  ( ph  ->  K  e.  RR+ )
2625rpred 10269 . . . . . . 7  |-  ( ph  ->  K  e.  RR )
2724simp3d 974 . . . . . . . 8  |-  ( ph  ->  ( E  e.  ( 0 (,) 1 )  /\  1  <  K  /\  ( U  -  E
)  e.  RR+ )
)
2827simp2d 973 . . . . . . 7  |-  ( ph  ->  1  <  K )
2926, 28rplogcld 19812 . . . . . 6  |-  ( ph  ->  ( log `  K
)  e.  RR+ )
3013, 29rpdivcld 10286 . . . . 5  |-  ( ph  ->  ( ( log `  X
)  /  ( log `  K ) )  e.  RR+ )
3130rprege0d 10276 . . . 4  |-  ( ph  ->  ( ( ( log `  X )  /  ( log `  K ) )  e.  RR  /\  0  <_  ( ( log `  X
)  /  ( log `  K ) ) ) )
32 flge0nn0 10826 . . . 4  |-  ( ( ( ( log `  X
)  /  ( log `  K ) )  e.  RR  /\  0  <_ 
( ( log `  X
)  /  ( log `  K ) ) )  ->  ( |_ `  ( ( log `  X
)  /  ( log `  K ) ) )  e.  NN0 )
33 nn0p1nn 9882 . . . 4  |-  ( ( |_ `  ( ( log `  X )  /  ( log `  K
) ) )  e. 
NN0  ->  ( ( |_
`  ( ( log `  X )  /  ( log `  K ) ) )  +  1 )  e.  NN )
3431, 32, 333syl 20 . . 3  |-  ( ph  ->  ( ( |_ `  ( ( log `  X
)  /  ( log `  K ) ) )  +  1 )  e.  NN )
351, 34syl5eqel 2337 . 2  |-  ( ph  ->  M  e.  NN )
3635nnzd 9995 . . 3  |-  ( ph  ->  M  e.  ZZ )
37 pntlem1.n . . . 4  |-  N  =  ( |_ `  (
( ( log `  Z
)  /  ( log `  K ) )  / 
2 ) )
38 pntlem1.c . . . . . . . . . 10  |-  ( ph  ->  C  e.  RR+ )
39 pntlem1.w . . . . . . . . . 10  |-  W  =  ( ( ( Y  +  ( 4  / 
( L  x.  E
) ) ) ^
2 )  +  ( ( ( X  x.  ( K ^ 2 ) ) ^ 4 )  +  ( exp `  (
( (; 3 2  x.  B
)  /  ( ( U  -  E )  x.  ( L  x.  ( E ^ 2 ) ) ) )  x.  ( ( U  x.  3 )  +  C
) ) ) ) )
40 pntlem1.z . . . . . . . . . 10  |-  ( ph  ->  Z  e.  ( W [,)  +oo ) )
4114, 15, 16, 17, 18, 19, 20, 21, 22, 23, 7, 2, 38, 39, 40pntlemb 20578 . . . . . . . . 9  |-  ( ph  ->  ( Z  e.  RR+  /\  ( 1  <  Z  /\  _e  <_  ( sqr `  Z )  /\  ( sqr `  Z )  <_ 
( Z  /  Y
) )  /\  (
( 4  /  ( L  x.  E )
)  <_  ( sqr `  Z )  /\  (
( ( log `  X
)  /  ( log `  K ) )  +  2 )  <_  (
( ( log `  Z
)  /  ( log `  K ) )  / 
4 )  /\  (
( U  x.  3 )  +  C )  <_  ( ( ( U  -  E )  x.  ( ( L  x.  ( E ^
2 ) )  / 
(; 3 2  x.  B
) ) )  x.  ( log `  Z
) ) ) ) )
4241simp1d 972 . . . . . . . 8  |-  ( ph  ->  Z  e.  RR+ )
4342relogcld 19806 . . . . . . 7  |-  ( ph  ->  ( log `  Z
)  e.  RR )
4443, 29rerpdivcld 10296 . . . . . 6  |-  ( ph  ->  ( ( log `  Z
)  /  ( log `  K ) )  e.  RR )
4544rehalfcld 9837 . . . . 5  |-  ( ph  ->  ( ( ( log `  Z )  /  ( log `  K ) )  /  2 )  e.  RR )
4645flcld 10808 . . . 4  |-  ( ph  ->  ( |_ `  (
( ( log `  Z
)  /  ( log `  K ) )  / 
2 ) )  e.  ZZ )
4737, 46syl5eqel 2337 . . 3  |-  ( ph  ->  N  e.  ZZ )
48 0re 8718 . . . . . 6  |-  0  e.  RR
4948a1i 12 . . . . 5  |-  ( ph  ->  0  e.  RR )
50 4nn 9758 . . . . . 6  |-  4  e.  NN
51 nndivre 9661 . . . . . 6  |-  ( ( ( ( log `  Z
)  /  ( log `  K ) )  e.  RR  /\  4  e.  NN )  ->  (
( ( log `  Z
)  /  ( log `  K ) )  / 
4 )  e.  RR )
5244, 50, 51sylancl 646 . . . . 5  |-  ( ph  ->  ( ( ( log `  Z )  /  ( log `  K ) )  /  4 )  e.  RR )
5347zred 9996 . . . . . 6  |-  ( ph  ->  N  e.  RR )
5435nnred 9641 . . . . . 6  |-  ( ph  ->  M  e.  RR )
5553, 54resubcld 9091 . . . . 5  |-  ( ph  ->  ( N  -  M
)  e.  RR )
5642rpred 10269 . . . . . . . . 9  |-  ( ph  ->  Z  e.  RR )
5741simp2d 973 . . . . . . . . . 10  |-  ( ph  ->  ( 1  <  Z  /\  _e  <_  ( sqr `  Z )  /\  ( sqr `  Z )  <_ 
( Z  /  Y
) ) )
5857simp1d 972 . . . . . . . . 9  |-  ( ph  ->  1  <  Z )
5956, 58rplogcld 19812 . . . . . . . 8  |-  ( ph  ->  ( log `  Z
)  e.  RR+ )
6059, 29rpdivcld 10286 . . . . . . 7  |-  ( ph  ->  ( ( log `  Z
)  /  ( log `  K ) )  e.  RR+ )
61 4re 9699 . . . . . . . 8  |-  4  e.  RR
62 4pos 9712 . . . . . . . 8  |-  0  <  4
6361, 62elrpii 10236 . . . . . . 7  |-  4  e.  RR+
64 rpdivcl 10255 . . . . . . 7  |-  ( ( ( ( log `  Z
)  /  ( log `  K ) )  e.  RR+  /\  4  e.  RR+ )  ->  ( ( ( log `  Z )  /  ( log `  K
) )  /  4
)  e.  RR+ )
6560, 63, 64sylancl 646 . . . . . 6  |-  ( ph  ->  ( ( ( log `  Z )  /  ( log `  K ) )  /  4 )  e.  RR+ )
6665rpge0d 10273 . . . . 5  |-  ( ph  ->  0  <_  ( (
( log `  Z
)  /  ( log `  K ) )  / 
4 ) )
6752recnd 8741 . . . . . . . . 9  |-  ( ph  ->  ( ( ( log `  Z )  /  ( log `  K ) )  /  4 )  e.  CC )
6835nncnd 9642 . . . . . . . . 9  |-  ( ph  ->  M  e.  CC )
69 ax-1cn 8675 . . . . . . . . . 10  |-  1  e.  CC
7069a1i 12 . . . . . . . . 9  |-  ( ph  ->  1  e.  CC )
7167, 68, 70addassd 8737 . . . . . . . 8  |-  ( ph  ->  ( ( ( ( ( log `  Z
)  /  ( log `  K ) )  / 
4 )  +  M
)  +  1 )  =  ( ( ( ( log `  Z
)  /  ( log `  K ) )  / 
4 )  +  ( M  +  1 ) ) )
7254, 6readdcld 8742 . . . . . . . . . 10  |-  ( ph  ->  ( M  +  1 )  e.  RR )
7352, 72readdcld 8742 . . . . . . . . 9  |-  ( ph  ->  ( ( ( ( log `  Z )  /  ( log `  K
) )  /  4
)  +  ( M  +  1 ) )  e.  RR )
74 peano2re 8865 . . . . . . . . . 10  |-  ( N  e.  RR  ->  ( N  +  1 )  e.  RR )
7553, 74syl 17 . . . . . . . . 9  |-  ( ph  ->  ( N  +  1 )  e.  RR )
7630rpred 10269 . . . . . . . . . . . . 13  |-  ( ph  ->  ( ( log `  X
)  /  ( log `  K ) )  e.  RR )
77 2re 9695 . . . . . . . . . . . . . 14  |-  2  e.  RR
7877a1i 12 . . . . . . . . . . . . 13  |-  ( ph  ->  2  e.  RR )
7976, 78readdcld 8742 . . . . . . . . . . . 12  |-  ( ph  ->  ( ( ( log `  X )  /  ( log `  K ) )  +  2 )  e.  RR )
80 reflcl 10806 . . . . . . . . . . . . . . . . 17  |-  ( ( ( log `  X
)  /  ( log `  K ) )  e.  RR  ->  ( |_ `  ( ( log `  X
)  /  ( log `  K ) ) )  e.  RR )
8176, 80syl 17 . . . . . . . . . . . . . . . 16  |-  ( ph  ->  ( |_ `  (
( log `  X
)  /  ( log `  K ) ) )  e.  RR )
8281recnd 8741 . . . . . . . . . . . . . . 15  |-  ( ph  ->  ( |_ `  (
( log `  X
)  /  ( log `  K ) ) )  e.  CC )
8382, 70, 70addassd 8737 . . . . . . . . . . . . . 14  |-  ( ph  ->  ( ( ( |_
`  ( ( log `  X )  /  ( log `  K ) ) )  +  1 )  +  1 )  =  ( ( |_ `  ( ( log `  X
)  /  ( log `  K ) ) )  +  ( 1  +  1 ) ) )
841oveq1i 5720 . . . . . . . . . . . . . 14  |-  ( M  +  1 )  =  ( ( ( |_
`  ( ( log `  X )  /  ( log `  K ) ) )  +  1 )  +  1 )
85 df-2 9684 . . . . . . . . . . . . . . 15  |-  2  =  ( 1  +  1 )
8685oveq2i 5721 . . . . . . . . . . . . . 14  |-  ( ( |_ `  ( ( log `  X )  /  ( log `  K
) ) )  +  2 )  =  ( ( |_ `  (
( log `  X
)  /  ( log `  K ) ) )  +  ( 1  +  1 ) )
8783, 84, 863eqtr4g 2310 . . . . . . . . . . . . 13  |-  ( ph  ->  ( M  +  1 )  =  ( ( |_ `  ( ( log `  X )  /  ( log `  K
) ) )  +  2 ) )
88 flle 10809 . . . . . . . . . . . . . . 15  |-  ( ( ( log `  X
)  /  ( log `  K ) )  e.  RR  ->  ( |_ `  ( ( log `  X
)  /  ( log `  K ) ) )  <_  ( ( log `  X )  /  ( log `  K ) ) )
8976, 88syl 17 . . . . . . . . . . . . . 14  |-  ( ph  ->  ( |_ `  (
( log `  X
)  /  ( log `  K ) ) )  <_  ( ( log `  X )  /  ( log `  K ) ) )
9081, 76, 78, 89leadd1dd 9266 . . . . . . . . . . . . 13  |-  ( ph  ->  ( ( |_ `  ( ( log `  X
)  /  ( log `  K ) ) )  +  2 )  <_ 
( ( ( log `  X )  /  ( log `  K ) )  +  2 ) )
9187, 90eqbrtrd 3940 . . . . . . . . . . . 12  |-  ( ph  ->  ( M  +  1 )  <_  ( (
( log `  X
)  /  ( log `  K ) )  +  2 ) )
9241simp3d 974 . . . . . . . . . . . . 13  |-  ( ph  ->  ( ( 4  / 
( L  x.  E
) )  <_  ( sqr `  Z )  /\  ( ( ( log `  X )  /  ( log `  K ) )  +  2 )  <_ 
( ( ( log `  Z )  /  ( log `  K ) )  /  4 )  /\  ( ( U  x.  3 )  +  C
)  <_  ( (
( U  -  E
)  x.  ( ( L  x.  ( E ^ 2 ) )  /  (; 3 2  x.  B
) ) )  x.  ( log `  Z
) ) ) )
9392simp2d 973 . . . . . . . . . . . 12  |-  ( ph  ->  ( ( ( log `  X )  /  ( log `  K ) )  +  2 )  <_ 
( ( ( log `  Z )  /  ( log `  K ) )  /  4 ) )
9472, 79, 52, 91, 93letrd 8853 . . . . . . . . . . 11  |-  ( ph  ->  ( M  +  1 )  <_  ( (
( log `  Z
)  /  ( log `  K ) )  / 
4 ) )
9572, 52, 52, 94leadd2dd 9267 . . . . . . . . . 10  |-  ( ph  ->  ( ( ( ( log `  Z )  /  ( log `  K
) )  /  4
)  +  ( M  +  1 ) )  <_  ( ( ( ( log `  Z
)  /  ( log `  K ) )  / 
4 )  +  ( ( ( log `  Z
)  /  ( log `  K ) )  / 
4 ) ) )
9644recnd 8741 . . . . . . . . . . . . . 14  |-  ( ph  ->  ( ( log `  Z
)  /  ( log `  K ) )  e.  CC )
97 2cn 9696 . . . . . . . . . . . . . . 15  |-  2  e.  CC
9897a1i 12 . . . . . . . . . . . . . 14  |-  ( ph  ->  2  e.  CC )
99 2ne0 9709 . . . . . . . . . . . . . . 15  |-  2  =/=  0
10099a1i 12 . . . . . . . . . . . . . 14  |-  ( ph  ->  2  =/=  0 )
10196, 98, 98, 100, 100divdiv1d 9447 . . . . . . . . . . . . 13  |-  ( ph  ->  ( ( ( ( log `  Z )  /  ( log `  K
) )  /  2
)  /  2 )  =  ( ( ( log `  Z )  /  ( log `  K
) )  /  (
2  x.  2 ) ) )
102 2t2e4 9750 . . . . . . . . . . . . . 14  |-  ( 2  x.  2 )  =  4
103102oveq2i 5721 . . . . . . . . . . . . 13  |-  ( ( ( log `  Z
)  /  ( log `  K ) )  / 
( 2  x.  2 ) )  =  ( ( ( log `  Z
)  /  ( log `  K ) )  / 
4 )
104101, 103syl6eq 2301 . . . . . . . . . . . 12  |-  ( ph  ->  ( ( ( ( log `  Z )  /  ( log `  K
) )  /  2
)  /  2 )  =  ( ( ( log `  Z )  /  ( log `  K
) )  /  4
) )
105104oveq2d 5726 . . . . . . . . . . 11  |-  ( ph  ->  ( 2  x.  (
( ( ( log `  Z )  /  ( log `  K ) )  /  2 )  / 
2 ) )  =  ( 2  x.  (
( ( log `  Z
)  /  ( log `  K ) )  / 
4 ) ) )
10645recnd 8741 . . . . . . . . . . . 12  |-  ( ph  ->  ( ( ( log `  Z )  /  ( log `  K ) )  /  2 )  e.  CC )
107106, 98, 100divcan2d 9418 . . . . . . . . . . 11  |-  ( ph  ->  ( 2  x.  (
( ( ( log `  Z )  /  ( log `  K ) )  /  2 )  / 
2 ) )  =  ( ( ( log `  Z )  /  ( log `  K ) )  /  2 ) )
108672timesd 9833 . . . . . . . . . . 11  |-  ( ph  ->  ( 2  x.  (
( ( log `  Z
)  /  ( log `  K ) )  / 
4 ) )  =  ( ( ( ( log `  Z )  /  ( log `  K
) )  /  4
)  +  ( ( ( log `  Z
)  /  ( log `  K ) )  / 
4 ) ) )
109105, 107, 1083eqtr3d 2293 . . . . . . . . . 10  |-  ( ph  ->  ( ( ( log `  Z )  /  ( log `  K ) )  /  2 )  =  ( ( ( ( log `  Z )  /  ( log `  K
) )  /  4
)  +  ( ( ( log `  Z
)  /  ( log `  K ) )  / 
4 ) ) )
11095, 109breqtrrd 3946 . . . . . . . . 9  |-  ( ph  ->  ( ( ( ( log `  Z )  /  ( log `  K
) )  /  4
)  +  ( M  +  1 ) )  <_  ( ( ( log `  Z )  /  ( log `  K
) )  /  2
) )
111 fllep1 10811 . . . . . . . . . . 11  |-  ( ( ( ( log `  Z
)  /  ( log `  K ) )  / 
2 )  e.  RR  ->  ( ( ( log `  Z )  /  ( log `  K ) )  /  2 )  <_ 
( ( |_ `  ( ( ( log `  Z )  /  ( log `  K ) )  /  2 ) )  +  1 ) )
11245, 111syl 17 . . . . . . . . . 10  |-  ( ph  ->  ( ( ( log `  Z )  /  ( log `  K ) )  /  2 )  <_ 
( ( |_ `  ( ( ( log `  Z )  /  ( log `  K ) )  /  2 ) )  +  1 ) )
11337oveq1i 5720 . . . . . . . . . 10  |-  ( N  +  1 )  =  ( ( |_ `  ( ( ( log `  Z )  /  ( log `  K ) )  /  2 ) )  +  1 )
114112, 113syl6breqr 3960 . . . . . . . . 9  |-  ( ph  ->  ( ( ( log `  Z )  /  ( log `  K ) )  /  2 )  <_ 
( N  +  1 ) )
11573, 45, 75, 110, 114letrd 8853 . . . . . . . 8  |-  ( ph  ->  ( ( ( ( log `  Z )  /  ( log `  K
) )  /  4
)  +  ( M  +  1 ) )  <_  ( N  + 
1 ) )
11671, 115eqbrtrd 3940 . . . . . . 7  |-  ( ph  ->  ( ( ( ( ( log `  Z
)  /  ( log `  K ) )  / 
4 )  +  M
)  +  1 )  <_  ( N  + 
1 ) )
11752, 54readdcld 8742 . . . . . . . 8  |-  ( ph  ->  ( ( ( ( log `  Z )  /  ( log `  K
) )  /  4
)  +  M )  e.  RR )
118117, 53, 6leadd1d 9246 . . . . . . 7  |-  ( ph  ->  ( ( ( ( ( log `  Z
)  /  ( log `  K ) )  / 
4 )  +  M
)  <_  N  <->  ( (
( ( ( log `  Z )  /  ( log `  K ) )  /  4 )  +  M )  +  1 )  <_  ( N  +  1 ) ) )
119116, 118mpbird 225 . . . . . 6  |-  ( ph  ->  ( ( ( ( log `  Z )  /  ( log `  K
) )  /  4
)  +  M )  <_  N )
120 leaddsub 9130 . . . . . . 7  |-  ( ( ( ( ( log `  Z )  /  ( log `  K ) )  /  4 )  e.  RR  /\  M  e.  RR  /\  N  e.  RR )  ->  (
( ( ( ( log `  Z )  /  ( log `  K
) )  /  4
)  +  M )  <_  N  <->  ( (
( log `  Z
)  /  ( log `  K ) )  / 
4 )  <_  ( N  -  M )
) )
12152, 54, 53, 120syl3anc 1187 . . . . . 6  |-  ( ph  ->  ( ( ( ( ( log `  Z
)  /  ( log `  K ) )  / 
4 )  +  M
)  <_  N  <->  ( (
( log `  Z
)  /  ( log `  K ) )  / 
4 )  <_  ( N  -  M )
) )
122119, 121mpbid 203 . . . . 5  |-  ( ph  ->  ( ( ( log `  Z )  /  ( log `  K ) )  /  4 )  <_ 
( N  -  M
) )
12349, 52, 55, 66, 122letrd 8853 . . . 4  |-  ( ph  ->  0  <_  ( N  -  M ) )
12453, 54subge0d 9242 . . . 4  |-  ( ph  ->  ( 0  <_  ( N  -  M )  <->  M  <_  N ) )
125123, 124mpbid 203 . . 3  |-  ( ph  ->  M  <_  N )
126 eluz2 10115 . . 3  |-  ( N  e.  ( ZZ>= `  M
)  <->  ( M  e.  ZZ  /\  N  e.  ZZ  /\  M  <_  N ) )
12736, 47, 125, 126syl3anbrc 1141 . 2  |-  ( ph  ->  N  e.  ( ZZ>= `  M ) )
12835, 127, 1223jca 1137 1  |-  ( ph  ->  ( M  e.  NN  /\  N  e.  ( ZZ>= `  M )  /\  (
( ( log `  Z
)  /  ( log `  K ) )  / 
4 )  <_  ( N  -  M )
) )
Colors of variables: wff set class
Syntax hints:    -> wi 6    <-> wb 178    /\ wa 360    /\ w3a 939    = wceq 1619    e. wcel 1621    =/= wne 2412   class class class wbr 3920    e. cmpt 3974   ` cfv 4592  (class class class)co 5710   CCcc 8615   RRcr 8616   0cc0 8617   1c1 8618    + caddc 8620    x. cmul 8622    +oocpnf 8744    < clt 8747    <_ cle 8748    - cmin 8917    / cdiv 9303   NNcn 9626   2c2 9675   3c3 9676   4c4 9677   NN0cn0 9844   ZZcz 9903  ;cdc 10003   ZZ>=cuz 10109   RR+crp 10233   (,)cioo 10534   [,)cico 10536   |_cfl 10802   ^cexp 10982   sqrcsqr 11595   expce 12217   _eceu 12218   logclog 19744  ψcchp 20162
This theorem is referenced by:  pntlemh  20580  pntlemq  20582  pntlemr  20583  pntlemj  20584  pntlemf  20586
This theorem was proved from axioms:  ax-1 7  ax-2 8  ax-3 9  ax-mp 10  ax-5 1533  ax-6 1534  ax-7 1535  ax-gen 1536  ax-8 1623  ax-11 1624  ax-13 1625  ax-14 1626  ax-17 1628  ax-12o 1664  ax-10 1678  ax-9 1684  ax-4 1692  ax-16 1926  ax-ext 2234  ax-rep 4028  ax-sep 4038  ax-nul 4046  ax-pow 4082  ax-pr 4108  ax-un 4403  ax-inf2 7226  ax-cnex 8673  ax-resscn 8674  ax-1cn 8675  ax-icn 8676  ax-addcl 8677  ax-addrcl 8678  ax-mulcl 8679  ax-mulrcl 8680  ax-mulcom 8681  ax-addass 8682  ax-mulass 8683  ax-distr 8684  ax-i2m1 8685  ax-1ne0 8686  ax-1rid 8687  ax-rnegex 8688  ax-rrecex 8689  ax-cnre 8690  ax-pre-lttri 8691  ax-pre-lttrn 8692  ax-pre-ltadd 8693  ax-pre-mulgt0 8694  ax-pre-sup 8695  ax-addf 8696  ax-mulf 8697
This theorem depends on definitions:  df-bi 179  df-or 361  df-an 362  df-3or 940  df-3an 941  df-tru 1315  df-ex 1538  df-nf 1540  df-sb 1883  df-eu 2118  df-mo 2119  df-clab 2240  df-cleq 2246  df-clel 2249  df-nfc 2374  df-ne 2414  df-nel 2415  df-ral 2513  df-rex 2514  df-reu 2515  df-rab 2516  df-v 2729  df-sbc 2922  df-csb 3010  df-dif 3081  df-un 3083  df-in 3085  df-ss 3089  df-pss 3091  df-nul 3363  df-if 3471  df-pw 3532  df-sn 3550  df-pr 3551  df-tp 3552  df-op 3553  df-uni 3728  df-int 3761  df-iun 3805  df-iin 3806  df-br 3921  df-opab 3975  df-mpt 3976  df-tr 4011  df-eprel 4198  df-id 4202  df-po 4207  df-so 4208  df-fr 4245  df-se 4246  df-we 4247  df-ord 4288  df-on 4289  df-lim 4290  df-suc 4291  df-om 4548  df-xp 4594  df-rel 4595  df-cnv 4596  df-co 4597  df-dm 4598  df-rn 4599  df-res 4600  df-ima 4601  df-fun 4602  df-fn 4603  df-f 4604  df-f1 4605  df-fo 4606  df-f1o 4607  df-fv 4608  df-isom 4609  df-ov 5713  df-oprab 5714  df-mpt2 5715  df-of 5930  df-1st 5974  df-2nd 5975  df-iota 6143  df-riota 6190  df-recs 6274  df-rdg 6309  df-1o 6365  df-2o 6366  df-oadd 6369  df-er 6546  df-map 6660  df-pm 6661  df-ixp 6704  df-en 6750  df-dom 6751  df-sdom 6752  df-fin 6753  df-fi 7049  df-sup 7078  df-oi 7109  df-card 7456  df-cda 7678  df-pnf 8749  df-mnf 8750  df-xr 8751  df-ltxr 8752  df-le 8753  df-sub 8919  df-neg 8920  df-div 9304  df-n 9627  df-2 9684  df-3 9685  df-4 9686  df-5 9687  df-6 9688  df-7 9689  df-8 9690  df-9 9691  df-10 9692  df-n0 9845  df-z 9904  df-dec 10004  df-uz 10110  df-q 10196  df-rp 10234  df-xneg 10331  df-xadd 10332  df-xmul 10333  df-ioo 10538  df-ioc 10539  df-ico 10540  df-icc 10541  df-fz 10661  df-fzo 10749  df-fl 10803  df-mod 10852  df-seq 10925  df-exp 10983  df-fac 11167  df-bc 11194  df-hash 11216  df-shft 11439  df-cj 11461  df-re 11462  df-im 11463  df-sqr 11597  df-abs 11598  df-limsup 11822  df-clim 11839  df-rlim 11840  df-sum 12036  df-ef 12223  df-e 12224  df-sin 12225  df-cos 12226  df-pi 12228  df-struct 13024  df-ndx 13025  df-slot 13026  df-base 13027  df-sets 13028  df-ress 13029  df-plusg 13095  df-mulr 13096  df-starv 13097  df-sca 13098  df-vsca 13099  df-tset 13101  df-ple 13102  df-ds 13104  df-hom 13106  df-cco 13107  df-rest 13201  df-topn 13202  df-topgen 13218  df-pt 13219  df-prds 13222  df-xrs 13277  df-0g 13278  df-gsum 13279  df-qtop 13284  df-imas 13285  df-xps 13287  df-mre 13361  df-mrc 13362  df-acs 13363  df-mnd 14202  df-submnd 14251  df-mulg 14327  df-cntz 14628  df-cmn 14926  df-xmet 16205  df-met 16206  df-bl 16207  df-mopn 16208  df-cnfld 16210  df-top 16468  df-bases 16470  df-topon 16471  df-topsp 16472  df-cld 16588  df-ntr 16589  df-cls 16590  df-nei 16667  df-lp 16700  df-perf 16701  df-cn 16789  df-cnp 16790  df-haus 16875  df-tx 17089  df-hmeo 17278  df-fbas 17352  df-fg 17353  df-fil 17373  df-fm 17465  df-flim 17466  df-flf 17467  df-xms 17717  df-ms 17718  df-tms 17719  df-cncf 18214  df-limc 19048  df-dv 19049  df-log 19746
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