A332112 -id:A332112 - cp's OEIS frontend

A332148 a(n) = 4(10^(2n+1)-1)/9 + 4*10^n.

8, 484, 44844, 4448444, 444484444, 44444844444, 4444448444444, 444444484444444, 44444444844444444, 4444444448444444444, 444444444484444444444, 44444444444844444444444, 4444444444448444444444444, 444444444444484444444444444, 44444444444444844444444444444, 4444444444444448444444444444444

Offset: 0

M. F. Hasler, Feb 09 2020

Index entries for linear recurrences with constant coefficients, signature (111,-1110,1000).

Cf. A002275 (repunits R_n = (10^n-1)/9), A002278 (4*R_n), A011557 (10^n).
Cf. A138148 (cyclops numbers with binary digits), A002113 (palindromes).
Cf. A332118 .. A332178, A181965 (variants with different repeated digit 1, ..., 9).
Cf. A332140 .. A332149 (variants with different middle digit 0, ..., 9).

A332148 := n -> 4*((10^(2*n+1)-1)/9+10^n);

Array[4 ((10^(2 # + 1)-1)/9 + 10^#) &, 15, 0]

apply( {A332148(n)=(10^(n*2+1)\9+10^n)*4}, [0..15])

def A332148(n): return (10**(n*2+1)//9+10**n)*4

a(n) = 4*A138148(n) + 8*10^n = A002278(2n+1) + 4*10^n = 4*A332112(n).
G.f.: (8 - 404*x)/((1 - x)(1 - 10*x)(1 - 100*x)).
a(n) = 111*a(n-1) - 1110*a(n-2) + 1000*a(n-3) for n > 2.

A332182 a(n) = 8(10^(2n+1)-1)/9 - 610^n.

Original entry on oeis.org

2, 828, 88288, 8882888, 888828888, 88888288888, 8888882888888, 888888828888888, 88888888288888888, 8888888882888888888, 888888888828888888888, 88888888888288888888888, 8888888888882888888888888, 888888888888828888888888888, 88888888888888288888888888888, 8888888888888882888888888888888

Offset: 0

M. F. Hasler, Feb 08 2020

Index entries for linear recurrences with constant coefficients, signature (111,-1110,1000).

Cf. A002275 (repunits R_n = (10^n-1)/9), A002282 (8*R_n), A011557 (10^n).
Cf. A138148 (cyclops numbers with binary digits only).
Cf. A332112 .. A332192 (variants with different repeated digit 1, ..., 9).
Cf. A332180 .. A332189 (variants with different middle digit 0, ..., 9).

A332182 := n -> 8*(10^(2*n+1)-1)/9-6*10^n;

Array[8 (10^(2 # + 1)-1)/9 - 6*10^# &, 15, 0]

apply( {A332182(n)=10^(n*2+1)\9*8-6*10^n}, [0..15])

def A332182(n): return 10**(n*2+1)//9*8-6*10**n

a(n) = 8*A138148(n) + 2*10^n = A002282(2n+1)- 6*10^n.
G.f.: (2 + 606*x - 1400*x^2)/((1 - x)(1 - 10*x)(1 - 100*x)).
a(n) = 111*a(n-1) - 1110*a(n-2) + 1000*a(n-3) for n > 2.

A332136 a(n) = 3(10^(2n+1)-1)/9 + 310^n.

Original entry on oeis.org

6, 363, 33633, 3336333, 333363333, 33333633333, 3333336333333, 333333363333333, 33333333633333333, 3333333336333333333, 333333333363333333333, 33333333333633333333333, 3333333333336333333333333, 333333333333363333333333333, 33333333333333633333333333333, 3333333333333336333333333333333

Offset: 0

M. F. Hasler, Feb 09 2020

Index entries for linear recurrences with constant coefficients, signature (111,-1110,1000).

Cf. A002275 (repunits R_n = (10^n-1)/9), A002277 (3*R_n), A011557 (10^n).
Cf. A138148 (cyclops numbers with binary digits), A002113 (palindromes).
Cf. A332126 .. A332196 (variants with different repeated digit 2, ..., 9).
Cf. A332130 .. A332139 (variants with different middle digit 0, ..., 9).

A332136 := n -> (10^(2*n+1)-1)/3+3*10^n);

Array[ (10^(2 # + 1)-1)/3 + 3*10^# &, 15, 0]

apply( {A332136(n)=10^(n*2+1)\3+3*10^n}, [0..15])

def A332136(n): return 10**(n*2+1)//3+3*10**n

a(n) = 3*A138148(n) + 6*10^n = A002277(2n+1) + 3*10^n = 3*A332112(n).
G.f.: (6 - 303*x)/((1 - x)(1 - 10*x)(1 - 100*x)).
a(n) = 111*a(n-1) - 1110*a(n-2) + 1000*a(n-3) for n > 2.

A332142 a(n) = 4(10^(2n+1)-1)/9 - 2*10^n.

Original entry on oeis.org

2, 424, 44244, 4442444, 444424444, 44444244444, 4444442444444, 444444424444444, 44444444244444444, 4444444442444444444, 444444444424444444444, 44444444444244444444444, 4444444444442444444444444, 444444444444424444444444444, 44444444444444244444444444444, 4444444444444442444444444444444

Offset: 0

M. F. Hasler, Feb 09 2020

Index entries for linear recurrences with constant coefficients, signature (111,-1110,1000).

Cf. A002275 (repunits R_n = (10^n-1)/9), A002278 (4*R_n), A011557 (10^n).
Cf. A138148 (cyclops numbers with binary digits), A002113 (palindromes).
Cf. A332112 .. A332192 (variants with different repeated digit 1, ..., 9).
Cf. A332140 .. A332149 (variants with different middle digit 0, ..., 9).

A332142 := n -> 4*(10^(2*n+1)-1)/9-2*10^n;

Array[4 (10^(2 # + 1)-1)/9 - 2*10^# &, 15, 0]

apply( {A332142(n)=10^(n*2+1)\9*4-2*10^n}, [0..15])

def A332142(n): return 10**(n*2+1)//9*4-2*10**n

a(n) = 4*A138148(n) + 2*10^n = A002278(2n+1) - 2*10^n = 2*A332121(n).
G.f.: (2 + 202*x - 600*x^2)/((1 - x)(1 - 10*x)(1 - 100*x)).
a(n) = 111*a(n-1) - 1110*a(n-2) + 1000*a(n-3) for n > 2.

A332152 a(n) = 5(10^(2n+1)-1)/9 - 3*10^n.

Original entry on oeis.org

2, 525, 55255, 5552555, 555525555, 55555255555, 5555552555555, 555555525555555, 55555555255555555, 5555555552555555555, 555555555525555555555, 55555555555255555555555, 5555555555552555555555555, 555555555555525555555555555, 55555555555555255555555555555, 5555555555555552555555555555555

Offset: 0

M. F. Hasler, Feb 09 2020

Index entries for linear recurrences with constant coefficients, signature (111,-1110,1000).

Cf. A002275 (repunits R_n = (10^n-1)/9), A002279 (5*R_n), A011557 (10^n).
Cf. A138148 (cyclops numbers with binary digits), A002113 (palindromes).
Cf. A332112 .. A332192 (variants with different repeated digit 1, ..., 9).
Cf. A332150 .. A332159 (variants with different middle digit 0, ..., 9).

A332152 := n -> 5*(10^(2*n+1)-1)/9-3*10^n;

Array[5 (10^(2 # + 1)-1)/9 - 3*10^# &, 15, 0]

apply( {A332152(n)=10^(n*2+1)\9*5-3*10^n}, [0..15])

def A332152(n): return 10**(n*2+1)//9*5-3*10**n

a(n) = 5*A138148(n) + 2*10^n = A002279(2n+1) - 3*10^n.
G.f.: (2 + 303*x - 800*x^2)/((1 - x)(1 - 10*x)(1 - 100*x)).
a(n) = 111*a(n-1) - 1110*a(n-2) + 1000*a(n-3) for n > 2.

A332162 a(n) = 6(10^(2n+1)-1)/9 - 4*10^n.

Original entry on oeis.org

2, 626, 66266, 6662666, 666626666, 66666266666, 6666662666666, 666666626666666, 66666666266666666, 6666666662666666666, 666666666626666666666, 66666666666266666666666, 6666666666662666666666666, 666666666666626666666666666, 66666666666666266666666666666, 6666666666666662666666666666666

Offset: 0

M. F. Hasler, Feb 09 2020

Index entries for linear recurrences with constant coefficients, signature (111,-1110,1000).

Cf. A002275 (repunits R_n = (10^n-1)/9), A002280 (6*R_n), A011557 (10^n).
Cf. A138148 (cyclops numbers with binary digits), A002113 (palindromes).
Cf. A332112 .. A332192 (variants with different repeated digit 1, ..., 9).
Cf. A332160 .. A332169 (variants with different middle digit 0, ..., 9).

A332162 := n -> 6*(10^(2*n+1)-1)/9-4*10^n;

Array[6 (10^(2 # + 1)-1)/9 - 4*10^# &, 15, 0]

apply( {A332162(n)=10^(n*2+1)\9*6-4*10^n}, [0..15])

def A332162(n): return 10**(n*2+1)//9*6-4*10**n

a(n) = 6*A138148(n) + 2*10^n = A002280(2n+1) - 4*10^n = 2*A332131(n).
G.f.: (2 + 404*x - 1000*x^2)/((1 - x)(1 - 10*x)(1 - 100*x)).
a(n) = 111*a(n-1) - 1110*a(n-2) + 1000*a(n-3) for n > 2.

cp's OEIS Frontend

A332148 a(n) = 4*(10^(2*n+1)-1)/9 + 4*10^n.

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A332182 a(n) = 8*(10^(2n+1)-1)/9 - 6*10^n.

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A332136 a(n) = 3*(10^(2n+1)-1)/9 + 3*10^n.

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A332142 a(n) = 4*(10^(2*n+1)-1)/9 - 2*10^n.

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A332152 a(n) = 5*(10^(2*n+1)-1)/9 - 3*10^n.

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Programs

Maple

Mathematica

PARI

Python

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A332162 a(n) = 6*(10^(2*n+1)-1)/9 - 4*10^n.

Views

Author

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Links

Crossrefs

Programs

Maple

Mathematica

PARI

Python

Formula

A332148 a(n) = 4(10^(2n+1)-1)/9 + 4*10^n.

A332182 a(n) = 8(10^(2n+1)-1)/9 - 610^n.

A332136 a(n) = 3(10^(2n+1)-1)/9 + 310^n.

A332142 a(n) = 4(10^(2n+1)-1)/9 - 2*10^n.

A332152 a(n) = 5(10^(2n+1)-1)/9 - 3*10^n.

A332162 a(n) = 6(10^(2n+1)-1)/9 - 4*10^n.