Basically
Problem
| The number 3723 (in base 10) is written as 123 in another base. What is that base? |
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Getting Started
If 123 is written in base b then it represents b2+2b+3
Student Solutions
There were a number of correct solutions to this problem which either involved trial and improvement or the solution of a quadratic equation.
Correct solutions were received from Michael Brooker, Yatir Halvi (Maccabim-Reut High School), Ross Haines, Robert Haynes and Andre Lazanu. Well done!
Ross Haines first explained how number bases work:
We use base ten, which is this:
| Thousands | Hundreds | Tens | Ones |
This can also be written as
| 10 cubeds | 10 squareds | 10s | 1s |
The second way is the way you write bases. It is the same format for all of them. For example, base 4 would be written as:
| 4 cubeds | 4 squareds | 4s | 1s |
To work a number from a base to base 10 you times the number by the column it is in. eg, using the number 321 in base four
| 4 cubeds | 4 squareds | 4s | 1s |
| 3 |
2 |
1 |
Which gives:
1 x 1 equals 1
2 x 4 equals 8
3 x ( 4 squared) equals 48
so 321 in base 4 would be 1+8+48=57 in base 10
Here is the trial and improvement solution submitted by Michael:
I worked it out like this: I decided to begin with bases much higher than 10, as 123 is much smaller than 3723. By trial and error I discovered that the answer was somewhere between 40 and 80.
So I tried translating "123" in Base 60 into Base 10. This time I did get 3723. Using powers I worked out the value of each base-60 digit in base 10 and added the figures together:
"3", the digit on the right, is the same in decimal
"2" x 60' gives 120
"1" x 60 ² gives 3600
Total = 3723
Yatir and Andrei found the solution by solving the quadratic equation 3x^2+2x+3=3723.
This works because the values of the columns in base x are:
| x 2 | x | 1 | |||
| So | |||||
| 1 | 2 | 3 | = 1x 2 + 2x + 3 | ||
| = 3723 |