The problem is:
Find the sum of all the numbers from $1$ to $100$ when all the $6$'s are replaced by $9$'s.
I need some ideas on how to approach this kind of problems? Please explain your ideas, assuming one digit replacements.
The problem is:
Find the sum of all the numbers from $1$ to $100$ when all the $6$'s are replaced by $9$'s.
I need some ideas on how to approach this kind of problems? Please explain your ideas, assuming one digit replacements.
One way is to add the numbers $1$ to $100$ to get $5050$, then reflect that there are $10$ sixes in the ones place and $10$ sixes in the tens place. So you have $5050+10*(9-6) +10*(90-60)=5380.$
If you just need the difference, it is $10*(9-6) +10*(90-60)=330$
Hint:
Can you find the sum $1 + 2 + \dots 100$?
What are all the values between $1$ and $100$ that have a $6$ in them? List them.
(Edit:) The process is the same for the numbers $1, \dots , 10$. You would add up all the values $1 + \dots + 10 = \frac{10 \cdot 11}{2} = 55$. Then, subtract each number with a $6$ to get $55 - 6 = 49$. Then, change the $6$ to a $9$, and add it back in: $49 + 9 = 58$. The same process works for the numbers $1, \dots , 100$:
$1 + \dots + 100 = 5050$.
Add together all the digits with a $6$:
$\begin{align} &6 + 16 + \dots + 56 + 60 + 61 + \dots + 69 + 76 + 86 + 96 \\ &= (6 + 16 + \dots + 96) + (60 + \dots + 69) - 66 \\ &= (10\cdot 6 + 10 + 20 + \dots + 90) + (10 \cdot 60 + 1 + 2 + 3 + \dots + 9) - 66 \\ &= \left(60 + 10(1 + 2 + \dots + 9)\right) + \left(600 + \frac{9\cdot 10}{2} \right) - 66 \\ &= (60 + 10\cdot 45) + (600 + 45) - 66 \\ &= 1089. \end{align}$
EDIT (#$2$):
This process amounts to subtracting all the values with a $6$, and then adding the numbers with a $9$. Perhaps a quicker way to do this is to add to $5050$, the quantity
$ 9-6 + 19-16 + 29-26 + \dots 59-56 + 90-60+ 91-61 + \dots 99-69 + 79-76 + \dots. $