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Old 2019-11-06, 13:46   #1
enzocreti
 
Mar 2018

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Default binary form of the exponents 69660, 92020, 541456

pg(69660), pg(92020) and pg(541456) are probable primes with 69660, 92020 and 541456 multiple of 86




69660 in binary is 10001000000011100
92020 in binary is 10110011101110100
541456 in binary is 10000100001100010000


you can see that the number of the 1's is always a multiple of 5




a chance?
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Old 2019-12-18, 08:26   #2
enzocreti
 
Mar 2018

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Default 69660, 92020, 541456

69660, 92020 and 541456 are 6 mod 13 (and 10^m mod 41)




69660, 92020 and 541456 are multiple of 43


is there a reason why




(69660-6)/26 is congruent to 13 mod 43
(92020-6)/26 is congruent to 13 mod 43
(541456-6)/26 is congruent to 13 mod 43?


215, 69660, 92020, 541456 are multiple of 43

let be log the log base 10

int(x) let be the integer part of x so for example int(5.43)=5

A=10^2*log(215)-215/41

int(A)=227=B

215 (which is odd) is congruent to B+1 mod 13
69660 which is even is congruent to B mod 13
92020 is congruent to B mod 13
and 541456 is also congruent to B mod 13






215 (odd) is congruent to -1215 mod 13
69660 (even) is congruent to 1215 mod 13
92020 (even) is congruent to 1215 mod 13
541456 (even) is congruent to 1215 mod 13










215, 69660, 92020, 541456 can be written as 13x+1763y+769


(541456-769-13*93)/1763=306


(69660-769-13*824)/1763=33


(92020-769-13*781)/1763=46


as you can see 306,33 and 46 are all 7 mod 13

769+13*824
769+13*781
769+13*93 are multiples of 43


(69660-(10^3+215))/13=5265 which is 19 mod 43
(92020-(10^3+215))/13=6985 which is 19 mod 43
(541456-(10^3+215))/13=41557 which is 19 mod 43


10^3+215 is 6 mod 13


now
69660/13=5358,4615384...
92020/13=7078,4615384...
541456/13=41650,4615384...


the repeating term 4615384 is the same...so that numbers must have some form 13s+k?


215 (odd) is congruent to 307*2^2-10^3 or equivalently to - (19*2^6-1) mod 13
69660 (even) is congruent to 307*2^2-1001 or equivalenly to (19*2^6-1) mod 13
92020 (even) the same
541456 (even) the same




(19*2^6*(541456-92020)/(13*43)+1)/13+10=75215 is a multiple of 307=(215*10-1)/7=(5414560-1)/17637




pg(51456) is another probable prime with 51456 congruent to 10^n mod 41


75215=(51456*19+1)/13+10=(19*2^6*(541456-92020)/(13*43)+1)/13+10




215 is congruent to -1215=5*3^5 mod 13

69660 is congruent to 1215 mod 13 and so also 92020 and 541456


1215=(51456/2-2*13*10^2-43)/19




...so summing up...


215 (odd) is congruent to 3*19*2^2 mod((41*43-307)/(7*2^4)=13) where 41*43-307 is congruent to 10^3+3*19*2^2 mod (3*19*2^2=228)
69660 (even) is congruent to (3*19*2^2-1) mod 13 ...
the same for 92020 and 541456


another way is 215 (odd) is congruent to -15*81 mod ((41*43-307)/(307-15*13))
69660 (even) is congruent to 15*81 mod ((41*43-307)/(307-15*13))
the same for 92020 and 541456




215 is congruent to (41*43-307-10^3)/2 mod ((41*43-307)/(7*2^4))
69660 is congruent to (41*43-307-10^3)/2-1 mod ((41*43-307)/(7*2^4))
92020 is congruent to (41*43-307-10^3)/2-1 mod ((41*43-307)/(7*2^4))
541456 is congruent to (41*43-307-10^3)/2-1 mod ((41*43-307)/(7*2^4))




215 is congruent to 3*19*2^2 mod ((41*43-307)/(2*(19*3-1)))
69660 is congruent to 3*19*2^2-1 mod ((41*43-307)/(2*(19*3-1)))
and so 92020 and 541456




215 is congruent to 3*19*2^2 mod ((3^6-1)/(3*19-1))
69660 is congruent to 3*19*2^2-1 mod((3^6-1)/(3*19-1)) and so 92020 and 541456

51456 (pg(51456) is probable prime and 51456 is 10^n mod 41) is congruent to 19*3*2^4 mod 13

Pg(2131) is probable prime
2131 is prime
227=2131-307*4-26^2
So 215 is congruent also to 2131-307*4-26^2 mod 13
And 69660 is congruent to 2131-307*4-26^2+1 mod 13 and so also 92020 and 541456


69660 is congruent to 1763-307*5-1 mod ((1763-307)/112)=13)

And so 92020 and 541456

215 which is odd is congruent to - 1763+307*5+1 mod 13
215+1763-307*5-1 is divisible by 17 and by 13
And also 541456-1763+307*5+1 is divisible by 13 and 17
215 and 541456 have the same residue 10 mod 41

((541456-1763+307*5+1)/(13*17)+1) *200+51456=541456


69660 92020 541456 are congruent to 7*2^6 mod 26
7*2^6-(1763-307*5-1)=221=13*17
215+7*2^6 is a multiple of 221
541456-7*2^6 is a multiple of 221

Last fiddled with by enzocreti on 2020-01-26 at 17:58
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Old 2020-01-24, 15:31   #3
enzocreti
 
Mar 2018

17×31 Posts
Default 215 , 51456, 69660, 92020, 541456

51456, 69660, 92020, 541456 are even and congruent to 10^n mod 41


pg(51456), pg(69660), pg(92020) and pg(541456) are prp


51456, 69660, 92020, 541456 are all congruent to 7*2^q-1 mod 13 with q a nonnegative integer




215 is odd and pg(215) is prp


215 is congruent to 7*2^q mod 13
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Old 2020-03-30, 11:52   #4
enzocreti
 
Mar 2018

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Default 69660 and 92020

69660 and 92020 are multiple of 215 and congruent to 344 mod 559
92020=lcm(215,344,559)+69660


| denotes concatenation in base 10


2^69660-1 | 2^69559-1 is prime
2^92020-1 | 2^92019-1 is prime!!!

Last fiddled with by enzocreti on 2020-03-30 at 11:53
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Old 2020-03-30, 12:19   #5
LaurV
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Default

please show us a proof that they are prime
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Old 2020-03-30, 12:50   #6
enzocreti
 
Mar 2018

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Default ...

Well...
actually they are only probable primes... maybe in future they will be proven primes

Last fiddled with by enzocreti on 2020-03-30 at 12:52
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Old 2020-03-30, 17:39   #7
enzocreti
 
Mar 2018

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Default

Quote:
Originally Posted by LaurV View Post
please show us a proof that they are prime


http://factordb.com/index.php?id=1100000001110801143

http://factordb.com/index.php?query=...%2B2%5E92019-1

Last fiddled with by enzocreti on 2020-03-30 at 17:55
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Old 2020-03-30, 23:06   #8
enzocreti
 
Mar 2018

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Default ... I note also...

69660 I note also that


(lcm(215,344,559))^2=4999*10^5+69660-60


I notice that lcm(215,344,559)=22360

22360/(18*18)=69.01234567...

curious
I notice also that 541456 (multiple of 43),is - 215 mod (18*18-1)
and 69660 (multiple of 43) is 215 mod (18*18-1)


I note that the polynomial

X^2-X*429^2+7967780460=0 has the solution x=69660


If you see the discriminant of such polynomial you can see interesting things about pg primes with exponent multiple of 43

I note that 429^2 is congruent to 1 mod 215 and to 1 mod 344.



I note that 92020*2+1=429^2

The discriminant of the polynomial is 429^4-4*7967780460 which is a perfect square and lcm(215,344,559) divides 429^4-4*7967780460-1


Pg(331259) is prime and pg(92020) is prime.
92020+(92020/215-1)*559+546=331259

Again magic numbers 559 and 546 strike!

So 331259 is a number of the form
215*(13s-1)+(13*b-2)*559+546

For some s, b positive integers

So there are pg primes pg(75894) and pg(56238) with 75894 and 56238 multiple of 546 and pg(331259) with 331259 of the form 215m+559g+546 for some positive m and g.

Pg(69660) is prime. 69660=(3067*8-546)*3-11# where # is the primorial and 3067 is a prime of the form 787+456s

notice that lcm(215,344,559)=22360

22360/(18*18)=69.01234567...

curious
I notice also that 541456 (multiple of 43),is - 215 mod (18*18-1)
and 69660 (multiple of 43) is 215 mod (18*18-1)

So we have pg(215) is prime pg(69660) is prime pg(92020) is prime

With 215 69660 and 92020 multiple of 43

69660=215+(18*18-1)*215

92020=69660+18*18*69+4


-215 is congruent to 108 mod (18*18-1=323)
541456 is congruent to 108 mod (18*18-1)
92020 is congruent to (17*17-1) mod (18*18-1)
69660 is congruent to 215 mod (18*18-1)

108=6^3-18^2

17*17-1+36-216=17*17-1+6^2-6^3=108


215=6^3-1

To make it easier

215, 69660, 541456 are congruent to plus or minus 215 mod 323

92020 is congruent to (17*17-1) mod (18*18-1)

curious that 289/215 is about 1.(344)...

and 541456 92020 69660 215 are congruent to plus or minus 344 mod 559


215, 69660, 541456 are congruent to plus or minus 6^3-1 mod 323

92020 is congruent to (12/9)*6^3 mod 323


92020*9/12 is congruent to 6^3 mod 323

92020 is congruent to (17^2-1) mod 323 and to - (6^2-1) mod 323

92020 is a number of the form 8686+13889s


13889=(6^3+1)*64


215 69660 92020 541456 are + or - 344 mod 559

lcm(215,344,559)-86*(10^2+1)+6^3-1=(6^3+1)*2^6+1

92020=69660+lcm(215,344,559) so you can substitute

92020=69660+86*(10^2+1)-6^3+1+(6^3+1)*2^6+1

86*(10^2+1) mod 323 is 17^2-1



215, 69660, 541456 are multiple of 43 and congruent to 10 and 1 mod 41

They are congruent to plus or minus 215 mod 323

92020 is congruent to 2^4 (not a power of 10) mod 41

92020 is congruent to (2^4+1)^2-1 mod 323

288 is 17^2-1

288 in base 16 is 120

120=11^2-1

also 323=18^2-1 in base 16 is 143=12^2-1


344*((1444456-1763*2^9) /344-1)=541456

1444456=lcm(13,323,344)


541456=lcm(13,323,344)-344*(41*2^6+1)




215 69660 92020 541456 are congruent to plus or minus (3^a*2^b) mod 323

215 is congruent to - 108 mod 323
541456 is congruent to 108 mod 323
69660 is congruent to - 108 mod 323
92020 is congruent to 288 mod 323


108 and 288 are numbers of the form 3^a*2^b

So exponents multiple of 43 are congruent to plus or minus 344 mod 559 and to plus or minus a 3-smooth number mod 323

108 and 288 are both divisible by 36

Last fiddled with by enzocreti on 2020-08-18 at 21:00 Reason: notice that lcm(215,344,559)=22360 22360/(18*18)=69.01234567... curious I notice also that 541456 (multiple of 43),is - 21
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Old 2020-08-19, 05:48   #9
enzocreti
 
Mar 2018

17×31 Posts
Default

Q77I
Quote:
Originally Posted by enzocreti View Post
69660 I note also that


(lcm(215,344,559))^2=4999*10^5+69660-60


I notice that lcm(215,344,559)=22360

22360/(18*18)=69.01234567...

curious
I notice also that 541456 (multiple of 43),is - 215 mod (18*18-1)
and 69660 (multiple of 43) is 215 mod (18*18-1)


I note that the polynomial

X^2-X*429^2+7967780460=0 has the solution x=69660


If you see the discriminant of such polynomial you can see interesting things about pg primes with exponent multiple of 43

I note that 429^2 is congruent to 1 mod 215 and to 1 mod 344.



I note that 92020*2+1=429^2

The discriminant of the polynomial is 429^4-4*7967780460 which is a perfect square and lcm(215,344,559) divides 429^4-4*7967780460-1


Pg(331259) is prime and pg(92020) is prime.
92020+(92020/215-1)*559+546=331259

Again magic numbers 559 and 546 strike!

So 331259 is a number of the form
215*(13s-1)+(13*b-2)*559+546

For some s, b positive integers

So there are pg primes pg(75894) and pg(56238) with 75894 and 56238 multiple of 546 and pg(331259) with 331259 of the form 215m+559g+546 for some positive m and g.

Pg(69660) is prime. 69660=(3067*8-546)*3-11# where # is the primorial and 3067 is a prime of the form 787+456s

notice that lcm(215,344,559)=22360

22360/(18*18)=69.01234567...

curious
I notice also that 541456 (multiple of 43),is - 215 mod (18*18-1)
and 69660 (multiple of 43) is 215 mod (18*18-1)

So we have pg(215) is prime pg(69660) is prime pg(92020) is prime

With 215 69660 and 92020 multiple of 43

69660=215+(18*18-1)*215

92020=69660+18*18*69+4


-215 is congruent to 108 mod (18*18-1=323)
541456 is congruent to 108 mod (18*18-1)
92020 is congruent to (17*17-1) mod (18*18-1)
69660 is congruent to 215 mod (18*18-1)

108=6^3-18^2

17*17-1+36-216=17*17-1+6^2-6^3=108


215=6^3-1

To make it easier

215, 69660, 541456 are congruent to plus or minus 215 mod 323

92020 is congruent to (17*17-1) mod (18*18-1)

curious that 289/215 is about 1.(344)...

and 541456 92020 69660 215 are congruent to plus or minus 344 mod 559


215, 69660, 541456 are congruent to plus or minus 6^3-1 mod 323

92020 is congruent to (12/9)*6^3 mod 323


92020*9/12 is congruent to 6^3 mod 323

92020 is congruent to (17^2-1) mod 323 and to - (6^2-1) mod 323

92020 is a number of the form 8686+13889s


13889=(6^3+1)*64


215 69660 92020 541456 are + or - 344 mod 559

lcm(215,344,559)-86*(10^2+1)+6^3-1=(6^3+1)*2^6+1

92020=69660+lcm(215,344,559) so you can substitute

92020=69660+86*(10^2+1)-6^3+1+(6^3+1)*2^6+1

86*(10^2+1) mod 323 is 17^2-1



215, 69660, 541456 are multiple of 43 and congruent to 10 and 1 mod 41

They are congruent to plus or minus 215 mod 323

92020 is congruent to 2^4 (not a power of 10) mod 41

92020 is congruent to (2^4+1)^2-1 mod 323

288 is 17^2-1

288 in base 16 is 120

120=11^2-1

also 323=18^2-1 in base 16 is 143=12^2-1


344*((1444456-1763*2^9) /344-1)=541456

1444456=lcm(13,323,344)


541456=lcm(13,323,344)-344*(41*2^6+1)




215 69660 92020 541456 are congruent to plus or minus (3^a*2^b) mod 323

215 is congruent to - 108 mod 323
541456 is congruent to 108 mod 323
69660 is congruent to - 108 mod 323
92020 is congruent to 288 mod 323


108 and 288 are numbers of the form 3^a*2^b

So exponents multiple of 43 are congruent to plus or minus 344 mod 559 and to plus or minus a 3-smooth number mod 323

108 and 288 are both divisible by 36

215 69660 92020 541456 are congruent to plus or minus (6^k-1) mod 323 for k=3,2


69660=(2^5*3^7)-(2^3*3^4) so it is the difference of two 3 smooth numbers (2^a*3^b)-(2^(a-3)*3^(b-3))



69660 is multiple of 3 and congruent to 0 mod (6^2-1)

215, 92020, 541456 are not multiple of 3 and multiple of 43 and are congruent to plus or minus 2^k mod 36 for some k


1763*323-(6^3+1)*(2^7+1)=541456 or

(42^2-1)*(18^2-1)-(6^3+1)*(2^7+1)=541456

I also note that

69660=(2^7+1)*(6^3+1)+(2^7+1)*(18^2-1)

And by the way 215=(42^2-1)*4^2-(2^7+1)*(6^3+1)

27993=(217*129)=(2^7+1)*(6^3+1)

I notice that - 541456 mod 27993=9202*2

92020=10*9202

And 9202*2*10+1=429^2

27993=3/5*(6^6-1)


27993 in base 6 is 333333

27993 has also the representation:

(42^2-1)*4^2-(6^3-1)=27993=2*43*(18^2-1)+(6^3-1)


x/5+(42^2-1)*(18^2-1)-3/5*(6^6-1)=20*3/5*(6^6-1)

The solution of this equation x=92020


this identity:

(42^2-1)*(18^2-1)=(10^3+18^2)*430+43*3

Maybe it is not a chance that pg(10^3+18^2-1=1323) is prime


pg(1323), pg(215), pg(69660), pg(92020), pg(541456) are primes

1323, 215, 69660, 92020, 541456 are congruent to plus or minus (2^a*3^b-1) mod 323 where 2^a*3^b is a 3 smooth number with 2^a*3^b<323


or 1323, 215, 69660, 92020, 541456 are congruent to plus or minus (p-1) mod 323 where p is a perfect power




92020 has the factorization 2*(6^3-1)*(6^3-2)




lcm(215,344,559)=(6^3-1)*(2*(6^3-2)-18^2)=(2*(6^3-2)-18^2)*(2*(6^3-2)-18^2+111)




69660=92020-lcm(215,344,559)


215=2*(6^3-2)+2*(6^3+1)-2*18^2+1




92020=(2*(6^3-2)+2*(6^3+1)-2*18^2+1)*(2*(6^3-2)+2*(6^3+1)-2*18^2)*2




so 215=2*(6^3-2)+2*(6^3+1)-2*18^2+1


69660==(2*(6^3-2)+2*(6^3+1)-2*18^2+1)*(2*(6^3-2)+2*(6^3+1)-2*18^2)*2-((6^3-1)*(2*(6^3-2)-18^2))


92020=(2*(6^3-2)+2*(6^3+1)-2*18^2+1)*(2*(6^3-2)+2*(6^3+1)-2*18^2)*2




541456=(42^2-1)*(18^2-1)-(7^3-6^3+2)*(6^3+1)




69660=111111-5*11111+8*(42^2-1)




344=7^3+1=2*(111111-5*11111)/(18^2-1)=A




so lcm(215,344,559)=lcm(215, A, A+215)


541456=5*111112-(42^2-1)*8




(12^2-1) divides (111111-5*11111-6^3+1)




559=(111111-5*11111-6^3+1)/(12^2-1)+(111111-5*11111)/(18^2-1)

Quite clear that 215, 69660, 92020,541456 multiple of 43

are congruent to plus or minus (18^2-6^k) mod (18^2-1) where k is 2 or 3 and 3 indeed is the maximum exponent such that 18^2-6^k i 1s positive




(541456-18^2+6^3)/323=41^2-5=1676
(92020-18^2+6^2)/323=17^2-5=284
(69660+18^2-6^3)/323=6^3
(215+18^2-6^3)/323=1


There is clearly a pattern!!!




I notice also that (1+5)=6 is a semiprime
(6^3+5)=13*17 is a semiprime
(1676+5)=41*41 is a semiprime
(284+5)=17*17 is a semiprime




(6,221,1681,289) are either squares of primes or product of two consecutive primes




so when pg(k) is prime and k is a multiple of 43, then k can be expressed in this way:


(p*q-5)*(18^2-1) plus or minus (18^2-6^k) with 6^k<18^2


p and q are primes


when pg(k) is prime and k is a multiple of 546, then


k is congruent to 78 mod (18^2-6^3)


as in the cases k=56238 and k=75894




Curio of the curios:


pg(331259) is probable prime and 331259 is prime


magic:


71*6^6-331*(10^4-3*331)=331259




71*6^6 and 331259 have in common the first five digits 33125=182^2+1


If you consider 71*6^n for n>3

For n even

71*6^n is congruent to (11^2-1) mod (13^2-1)

and for n odd

Is congruent to (7^2-1) mod (13^2-1)

For n=4

71*6^4=92016

for n=6

71*6^6=3312576

As you can see

Pg(92020) is prime and pg(331259) is prime

92020 has the last two digits 20 different from 92016

The same for 3312576 and 331259

Moreover 331259 mod (71*6^3) =9203


Both 331259 and 92020 are 5 mod 239

Is there something connected with the fact

ord (71*6^k)=4

I mean the smallest value k for which 71*6^k is congruent to 1 mod 239 is k=4???




71 and 6 are both quadratic residues mod 239






92020 and 331259 are congruent to 71*3^3 mod (239*13)


I wonder if this concept could be generalized




pg(51456), pg(92020), pg(331259) are probable primes


51456 is congruent to 71 mod (239*(6^3-1))
92020 is congruent to 71*3^3 mod (239*13)
331259 is congruent to 71*3^3 mod (239*13)


92020 and 331259 are congruent to 6 mod 13


51456 and 331259 are congruent to 2^3 mod 109


71 and 71*3^3 are both congruent to 6 mod 13




so


51456, 92020, 331259 are congruent to 13*(5+71*k)+6 either mod (239*215) or mod (239*13)


are these primes infinite?


the odd thing is that


51456, 92020, 331259 are either congruent to 10^m mod 41 or prime (331259 infact is prime)

So I think it is no chance that 51456, 92020, 331259 are either congruent to 2^j mod 71 or to 13*2^i mod 71

No chance at all!

There is a file Rouge!
Pg(541456) is probable prime as pg(51456)

And 541456 mod (239*215)=9202*3, that is 3*( 92020/10 )and pg(92020) is prime




541456 is congruent to (3/20)*(429^2-1) mod (239*215)

541456 is congruent to 14*71*3^3+3*2^8 (mod (239*215))


Maybe there is some connection to the fact that

215, 69660, 92020 and 541456 are plus or minus 344 mod 559

lcm(344,559)=4472=71*(2^6-1)-1




I suspect that something in field F(239) is in action!




331259^(-1) mod (215*239)=49999=(10^5-2)/2

((71*(2^6-1))-1)/2=lcm(344,559)=9202-6966

Multiplying both sides by 10 you have

92020=69660+lcm(215,344,559)


I would suggest to study these exponents in field F(51385=239*215)

(239*10*215+3*(429^2-1)/10-541456) /3=9202

So

10*
(239*10*215+3*(429^2-1)/10-541456) /3=92020

In this equation we have 215, 92020, 541456 multiple of 43 and not of 3

The other multiple of 43 is 69660 which is multiple of 3

And 92020=69660+lcm(344,215,559)

239*10*215+3*(429^2-1)/10 is a multiple of 559

239*10*215+3*(429^2-1)/10=(42^2-1)*(18^2-2)+43*2^5


This identity

(239*10*215+(3/10)*(429^2-1)-541456+92020)/559=92020/(215*2)


One can play around with this expression containing 215 and 559


And substitute for example 92020 with (429^2-1)/2

Pg(331259) is prime and also 331259 is prime

The inverse modulo (215*239) of 331259 is the prime 5*10^4-1=49999


(331259*49999-1)/(215*239)=7*(18^2-1)*(12^2-1)-10^3+1




So 331259=((((18^2-1)*(10^3+1)-10^3+1)*239*215)+1)/(5*10^4-1)




Using Wolphram Alpha i considered this equation:




((323*(10^x+1)-10^x+1)*239*215+1)/(5*10^(x+1)-1)=y


wolphram say that the integer solution is x=3, y=331259


wolphram gives an alternate form:


84898302/(5*(2^(x+1)*5^(x+2)-1))+1654597/5=y


the number 1654597=69660+(30^2-1)*(42^2-1)




so 69660 and 331259 (both 6 mod 13 and pg(69660) pg(331259) primes) are linked by this equation:


84898302/(5*(2^(3+1)*5^(3+2)-1))+(69660+(30^2-1)*(42^2-1))/5=331259


541456 in field F(239*215) and in field F(239*323)

541456 mod (239*215)=9202*3
541456 mod (239*323)=359*3

Pg(359) is prime, pg(9202*10) is prime

9202-359 is a multiple of 239

Pg(92020+239239=331259) is prime




I note also


331259=71*6^6-331*(10^4-3*331)=6^2*9202-13=92020+239239




239239 is congruent to -13 mod 107 and mod 43




22360=(10*(239239+13))/107


92020=69660+22360


92020=331259-239239


92020 is a multiple of 107




lcm(215,344,559)*10=22360




multiple of 86, that is 69660, 92020 and 541456 are congruent to a square mod 428


so the muliple of 86=k for which pg(k) is prime are numbers for which there is a solution to this modular equation:




y is congruent to 36*x^2 mod 428


infact


92020 is congruent to 36*0^2 mod 428
69660 is congruent to 36*3^2 mod 428
541456 is congruent to 36*1^2 mod 428






There are pg(k) primes with k multiple of 215 and k multiple of 546


probably that numbers 215 and 546 are not random at all




look at this equality:


71*6^6-182^2-3^2-331*(10^4-3*331)-10=546^2


546-215=331=546-(6^3-1)



by the way 182^2+3^2+546^2 is prime




546^2 is congruent to 6^3 mod 331



541456-((3*239) ^2-239+(429^2-1)/20)=(429^2-1)/10




541456=(18/5)*(429^2-1)/2+13*((429^2-11)/10-2235)


where 2235=lcm(215,344,559)-1




541456*10=3*331259+239*(136^2+1)



92020 and 331259 are both 5 mod 239

71*6^k is congruent to 1 mod 239 for k=4

But 71*6^4 is 920...
And 71*6^6 is 33125...


92020 mod 71 is 4 and mod 331 is 3


71*6^4 is congruent to 1 mod (385*239)

541456 is congruent to - 239 mod 385

I notice that 92020 and 331259 are congruent to 5 mod 239 but also to - 72 mod (1001)

I notice that 92020 is congruent to 146 mod 71

541456 and 331259 are congruent to 146 mod 703




I notice that 215, 69660, 541456 are plus or minus 215 mod 323
92020 which is congruent to 16 mod 41, is congruent to 288 mod 323 and mod 71
288 and 92020 are both 4 mod 71


so 92020 is congruent to 4 mod 71
and is congruent to 4+284 (mod 323)


where 284 is the residue mod 323 of 71*6^4




215, 69660, 541456 are congruent to plus or minus 215 mod 323


where 215=4+211


211 is the residue of 71*6^4 mod 215




in particular 92020 is congruent to 288 mod 323 and mod 284, infact 92020=71*6^4+4


I think that also 331259 has something to do with 71*6^6


so multiple of 43, that is 215, 69660, 92020, 541456 are either of the form 323k+108, or 323k-108, or 323k-288


I notice that (323-108)=6^3-1 and (323-288)=6^2-1




211 and 284 are also the residues of 71*6^4 and 71*6^6 mod 323




the 18-th pg prime is pg(1323),
the 36-th is pg(360787)


modulo (18^2-1=323), 1323 is 31 and 360787 is 319


the difference between 319 and 31 is again 288


1323 is congruent to 31 mod (6^4-4)
360787 is congruent to 6^2*2^3+31 mod (6^4-4)




319 is congruent to 31 mod 6^2 infact




here:


215, 69660, 541456 are congruent to plus or minus 108 mod 323
92020 is congruent to (6^4-1008=288) mod 323




so multiple of 43 are either congruent to plus or minus (18+90) mod (18^2-1) or to 6^4-(18+90+900) mod (18^2-1)




92020 is congruent to (11*6^2-108) mod (18^2-1)
and to - 11*6^2 mod (304^2)






so great fact 215, 69660, 92020, 541456 are either congruent to plus or minus (108*2-1) mod (108*3-1) or to plus/minus (108/3-1) mod (108*3-1)

Last fiddled with by enzocreti on 2020-10-26 at 14:20 Reason: 3
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