Lời giải:
$3^{2022}+3^{2020}-(2^{2020}+2^{2020})$

$=3^{2020}(3^2+1)-2.2^{2020}=10.3^{2020}-2^{2021}$

Ta thấy: $10.3^{2020}\vdots 10$, còn $2^{2021}\not\vdots 10$ nên $10.3^{2020}-2^{2021}\not\vdots 10$ 

Bạn xem lại đề.

1: \(A=2+2^2+2^3+2^4+...+2^{97}+2^{98}+2^{99}+2^{100}\)

\(=2\left(1+2+2^2+2^3\right)+...+2^{97}\left(1+2+2^2+2^3\right)\)

\(=15\left(2+2^5+...+2^{97}\right)\)

\(=30\left(1+2^4+...+2^{96}\right)⋮30\)

2:

\(B=3+3^2+3^3+...+3^{2022}\)

\(=\left(3+3^2\right)+\left(3^3+3^4\right)+...+\left(3^{2021}+3^{2022}\right)\)

\(=\left(3+3^2\right)+3^2\left(3+3^2\right)+...+3^{2020}\left(3+3^2\right)\)

\(=12\left(1+3^2+...+3^{2020}\right)⋮12\)

b) A=2+2²+2³+...+2²⁰

A=(2+2²)+(2³+2⁴)+...+(2¹⁹+2²⁰)

A=3.2+3.2³+...+3.2¹⁹

A=3.(2+2³+2⁵+...+2¹⁹)

⇒A⋮3

phần c) làm tương tự

Câu a thì sao ạ

a + 5b = (a - b) + 6b = 6 + 6b = 6(1 + b) chia hết cho 6

a - 13b = (a - b) - 12b = 6 - 12b = 6(1 - 2b) chia hết cho 6

a: Ta có: \(A=2+2^2+2^3+...+2^{20}\)

\(=2\left(1+2+2^2+...+2^{19}\right)⋮2\)

b: Ta có: \(A=2+2^2+2^3+...+2^{20}\)

\(=2\left(1+2\right)+2^3\left(1+2\right)+...+2^{19}\left(1+2\right)\)

\(=3\cdot\left(2+2^3+...+2^{19}\right)⋮3\)

e cảm ơn ạ

 Bạn xem lại đề bài nhé. Với \(a=1,b=9\) thì \(111a+25b=336⋮12\) nhưng \(9a+13b=126⋮̸12\). Mình nghĩ đề bài là chứng minh \(9a+3b⋮12\). Vì \(111a+25b⋮12\) nên \(108a+24b+3a+b⋮12\) hay \(3a+b⋮12\) hay \(9a+3b⋮12\).

Gọi 2 số tự nhiên liên tiếp đó là a;a+1

Ta có:

tổng là:

\(a+a+1=2a+1\)

\(\left\{{}\begin{matrix}2a⋮2\\1⋮̸2\end{matrix}\right.\)

\(\)\(\Rightarrow2a+1⋮̸2\rightarrowđpcm\)

Làm luôn câu b cho mk đi

a)

Ta có: \(222^{333}=\left(222^3\right)^{111}\equiv1^{111}=1\left(mod13\right)\)

\(\Rightarrow222^{333}+333^{222}\equiv1+333^{222}=1+\left(333^2\right)^{111}\)

\(\equiv1+12^{111}\equiv1+12^{110}\cdot12\equiv1+\left(12^2\right)^{55}\cdot12\)

\(\equiv1+1\cdot12\equiv13\equiv0\left(mod13\right)\)

Vậy $222^{333}+333^{222}$ chia hết cho $13.$

b) Ta có:

\(3^{105}\equiv\left(3^3\right)^{35}\equiv1^{35}\equiv1\) (mod13)

\(\Rightarrow3^{105}+4^{105}\equiv1+4^{105}\equiv1+\left(4^3\right)^{35}\)

\(\equiv1+12^{35}\equiv1+\left(12^2\right)^{17}\cdot12\equiv1+1\cdot12\equiv13\equiv0\left(mod13\right)\)

Vậy $3^{105}+4^{105}$ chia hết cho $13.$

Lại có:

\(3^{105}\equiv\left(3^3\right)^{35}\equiv5^{35}\equiv\left(5^5\right)^7\equiv1\left(mod11\right)\)

\(4^{105}\equiv\left(4^3\right)^{35}\equiv9^{35}\equiv\left(9^5\right)^7\equiv1\left(mod11\right)\)

Từ đây:\(3^{105}+4^{105}\equiv1+1\equiv2\left(mod11\right)\)

Vậy $3^{105}+4^{105}$ không chia hết cho $11.$

P/s: Rất lâu rồi không giải, không chắc.