A=2+22+23+...+299+2100A=2+22+23+...+299+2100

⇒2A=22+23+24+...+2100+2101⇒2A=22+23+24+...+2100+2101

⇒A=2101−2⇒A=2101−2

B=3+32+33+...+399+3100B=3+32+33+...+399+3100

⇒3B=32+33+34+...+3100+3101⇒3B=32+33+34+...+3100+3101

⇒2B=3101−3⇒2B=3101−3

⇒B=3101−32

Lời giải:

Nếu $n=3k$ với $k$ tự nhiên.

$f(x)=x^{6k}+x^{3k}+1=(x^{6k}-1)+(x^{3k}-1)+3$

$=(x^3)^{2k}-1+(x^3)^k-1+3$

$=(x^3-1)[(x^3)^{2k-1}+....+1]+(x^3-1)[(x^3)^{k-1}+...+1]+3$
$=(x-1)(x^2+x+1)[(x^3)^{2k-1}+....+1]+(x-1)(x^2+x+1)[(x^3)^{k-1}+...+1]+3$

$=(x-1)g(x)[(x^3)^{2k-1}+....+1]+(x-1)g(x)[(x^3)^{k-1}+...+1]+3$

$\Rightarrow f(x)$ chia $g(x)$ dư $3$ (loại) 

Nếu $n=3k+1$ với $k$ tự nhiên

\(f(x)=x^{2(3k+1)}+x^{3k+1}+1=x^{6k+2}+x^{3k+1}+1\\ =x^2(x^{6k}-1)+x(x^{3k}-1)+x^2+x+1\)

$=x^2[(x^3)^{2k}-1]+x[(x^3)^k-1]+x^2+x+1$

$=x^2(x^3-1)[(x^3)^{2k-1}+....+1]+x(x^3-1)[(x^3)^{k-1}+...+1]+x^2+x+1$
$=x^2(x-1)(x^2+x+1)[(x^3)^{2k-1}+....+1]+x(x-1)(x^2+x+1)[(x^3)^{k-1}+...+1]+x^2+x+1$

$=x^2(x-1)g(x)[(x^3)^{2k-1}+....+1]+x(x-1)g(x)[(x^3)^{k-1}+...+1]+g(x)\vdots g(x)$

Nếu $n=3k+2$ với $k$ tự nhiên

\(f(x)=x^{2(3k+2)}+x^{3k+2}+1=x^{6k+4}+x^{3k+2}+1\)

\(=x^4(x^{6k}-1)+x^2(x^{3k}-1)+x^4+x^2+1\)

$=x^4(x^{6k}-1)+x^2(x^{3k}-1)+x(x^3-1)+x^2+x+1$

Có:

$x^{6k}-1=(x^3)^{2k}-1\vdots x^3-1\vdots x^2+x+1$

$x^{3k}-1=(x^3)^k-1\vdots x^3-1\vdots x^2+x+1$

$x^3-1\vdots x^2+x+1$

$x^2+x+1\vdots x^2+x+1$

$\Rightarrow f(x)\vdots x^2+x+1$ hay $f(x)\vdots g(x)$

Vậy tóm lại với $n\not\vdots 3$ thì $f(x)\vdots g(x)$

a) n = 14             

b) n = 2 

c) n = 4   

d) n = 8

e) n = 2

f) n = 5

1+2+3+4+5+6+7+8+9=133456 hi hi

đào xuân anh sao mày gi sai hả

a) n = 3.

b) n = 1.              

c) n = 6.     

d) n = 5.

e) n = 8.               

f) n = 3.

\(A=1+2+2^2+2^3+...+2^{100}\)

\(=1+\left(2+2^2\right)+\left(2^3+2^4\right)+...+\left(2^{99}+2^{100}\right)\)

\(=1+2\left(1+2\right)+2^3\left(1+2\right)+...+2^{99}\left(1+2\right)\)

\(=1+3\left(2+2^3+...+2^{99}\right)\)

=>A chia 3 dư 1