The Remainder Theorem
Introduction
No idea where this is going but here goes. They start with an example. Asked the robot what is was and it said
If you divide a polynomial f(x) by (x-a) the remainder is simply f(a)
Example 1
In this we appear to use the approach of substitution and synthetic division
f(x) = 2x³ - 5x² + 6x -12
We are asked to workout when f(4). Using substitution we get
f(4) = 2(4)³ - 5(4)² + 6(4) -12
= 128 - 80 + 24 - 12
f(4) = 60
They went of to use synthetic division so write down the coefficient and bring down the 2
4 | 2 - 5 + 6 - 12
| ↓
-----------------
2
Continue Multiplying and adding
4 | 2 - 5 + 6 - 12
| ↓ + 8 + 12 + 72
-----------------
2x²+3x + 18 = 60
Example 2
Here we go again
f(x) = 3x⁴ - 7x³ + 0x² - 9x +12 where f(5)
= 3(5)⁴ -7(5)³ + 0 -9(5) + 12
= 3(625) -7(125) - 45 + 12
= 1875 - 875 -33
= 1000 - 33
= 967
5 | 3 - 7 0 - 9 + 12
| ↓ 15 40 200 + 955
------------------------
3 8 40 191 = 967
3x³+8x²+40x+191 = 967
So
- the divisor is x − 5, so a = 5
- the polynomial is f(x) = 3x⁴ − 7x³ + 0x² − 9x + 12
- the computed f(5) = 967
- the synthetic division remainder = 967
So the theorem becomes:
If you divide the polynomial 3x⁴ − 7x³ + 0x² − 9x + 12 by (x-5),
the remainder is simply f(5)=967.
And that matches your synthetic division exactly.