sooyong94 said:Why is the remainder is a linear expression? I can't catch your explanation.
sooyong94 said:explanation
sooyong94 said:So that means if a polynomial P(x) is divided by a quadratic polynomial, then the remainder is a linear expression.
Ignore the fact that you will be looking for P(x) / (x^2-1). Can you think of a minimum degree polynomial P(x) such that P(-1) = 1 and P(1) = 3?sooyong94 said:A cubic polynomial?
Looking for a minimal degree for P(x). Start off with degree 1, is there a P(x) of degree 1 (ax + b) such that P(-1) = 1 and P(1) = 3? If not, try degree 2, and if not, try degree 3.sooyong94 said:Degree 3?
So what is that equation for P(x) of degree 1 and what is the remainder of P(x) / (x^2-1) ?sooyong94 said:Yup it appears that degree one works as well...
The remainder theorem is a mathematical concept that states that when a polynomial function is divided by a linear function of the form x-a, the remainder will be equal to the value of the polynomial at x=a.
To solve a tricky remainder theorem problem, you first need to identify the polynomial function and the linear function being divided. Then, plug in the value of x into the linear function and calculate the remainder using the remainder theorem. Finally, compare the remainder to the given value to determine if it satisfies the problem conditions.
Some common mistakes when solving remainder theorem problems include forgetting to use the remainder theorem formula, using the wrong value for x in the linear function, and not checking if the remainder satisfies the problem conditions.
Yes, the remainder in a remainder theorem problem can be negative. This can occur when the value of the polynomial at x=a is negative and the linear function results in a positive value for the remainder.
Yes, some tips for solving tricky remainder theorem problems include carefully reading and understanding the problem, double-checking all calculations, and using a table or chart to organize information and make the problem more manageable.