A136191 - OEIS

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A136191

Primes p such that 2p-3 and 2p+3 are both prime (A092110), with last decimal being 3.

13, 43, 53, 113, 193, 223, 283, 563, 613, 643, 743, 773, 1033, 1193, 1453, 1483, 1543, 1583, 1663, 1733, 2143, 2393, 2503, 2843, 3163, 3413, 3433, 3793, 3823, 4133, 4463, 4483, 4523, 4603, 4673, 4813, 5443, 5743, 5953, 6073, 6133, 6163, 6553, 6733, 6863

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OFFSET

1,1

COMMENTS

Except for p=5, the decimals in A092110 end in 3 or 7.

Theorem: If in the triple (2n-3,n,2n+3) all numbers are primes then n=5 or the decimal representation of n ends in 3 or 7. Proof: Consider Q=(2n-3)n(2n+3), by hypothesis factorized into primes. If n is prime, n=10k+r with r=1,3,7 or 9. We want to exclude r=1 and r=9. Case n=10k+1. Then Q=5(-1+6k+240k^2+800k^3) and 5 is a factor; thus 2n-3=5 or n=5 or 2n+1=5 : this means n=4 (not prime); or n=5 (included); or n=2 (impossible, because 2n-3=1). Case n=10k+9. Then Q=5(567+1926k+2160k^2+800k^3) and 5 is a factor; the arguments, for the previous case, also hold.

LINKS

Table of n, a(n) for n=1..45.

PROG

(PARI) isok(n) = (n % 10 == 3) && isprime(n) && isprime(2*n-3) && isprime(2*n+3); \\ Michel Marcus, Sep 02 2013

CROSSREFS

Cf. A092110, A136192.

Sequence in context: A340480 A129811 A108545 * A268483 A039318 A146507

Adjacent sequences: A136188 A136189 A136190 * A136192 A136193 A136194

KEYWORD

base,nonn

AUTHOR

Carlos Alves, Dec 20 2007

STATUS

approved