Maybe consider a simpler example to start with :
Convert $20$ from base $10$ to base $2$
If it helps think of this example as counting $20$ apples in base $2$ system
Step 1 : Count how many $2$-apple groups are there
$\color{red}{20 = 2\times 10 + }\color{green}{0} $
This division tells us that the number of $2$-apple groups is $10$ and $1$-apple groups is $0$
Step 2 : Count how many $4$-apple groups are there
$\color{red}{10 = 2\times 5+ }\color{green}{0}$
This division tells us that the number of $4$-apple groups is $5$, $2$-apple groups is $0$ and $1$-apple groups is $0$
Step 3 : Count how many $8$-apple groups are there
$\color{red}{5 = 2\times 2 + }\color{green}{1}$
This division tells us that the number of $8$-apple groups is $2$, $4$-apple groups is $1$, $2$-apple groups is $0$ and $1$-apple groups is $0$
Step 4 : Count how many $16$-apple groups are there
$\color{red}{2 = 2\times 1 +}\color{green}{0}$
This division tells us that the number of $16$-apple groups is $1$, $8$-apple groups is $0$, $4$-apple groups is $1$, $2$-apple groups is $0$ and $1$-apple groups is $0$
Step 5 : Count how many $32$-apple groups are there
$\color{red}{1 = 2\times 0 + }\color{green}{1}$
This division tells us that the number of $32$-apple groups is $0$, $16$-apple groups is $1$, $8$-apple groups is $0$, $4$-apple groups is $1$, $2$-apple groups is $0$ and $1$-apple groups is $0$
Overall :
$$\left(20\right)_{10} = \left(\color{green}{10100}\right)_{2}$$
As you can see, changing base is like changing the size by which you group things. I hope you might be having some idea about the place value!