Polynomial Functions - Polynomial Function or NOT? Grade 10 Math Second Quarter

MATH TEACHER GON

13 Nov 202209:23

Summary

TLDRIn this educational video, the teacher explains the fundamentals of polynomial functions, including their general form and key characteristics. The video provides examples to distinguish between polynomial and non-polynomial functions, highlighting common mistakes like having variables under radicals or fractional exponents. Additionally, the teacher demonstrates how to determine the degree, leading coefficient, and constant term of a polynomial. By the end, students gain a clear understanding of how to identify and analyze polynomial functions with real-life examples.

Takeaways

😀 A polynomial function is generally expressed as P(x) = a_n x^n + a_{n-1} x^{n-1} + ... + a_1 x + a_0, where each term has a coefficient and a non-negative integer exponent.
😀 Polynomial functions involve variables raised to whole number powers only; no radicals, fractions, or negative exponents are allowed.
😀 Examples like y = 14x and y = -2022x are valid polynomial functions.
😀 Expressions such as y = 5x^3 - 4√(2x) or y = x^(3/4) + 3x^(1/4) + 7 are not polynomials due to radicals or fractional exponents.
😀 Variables in the denominator (e.g., y = 1/(2x^3) + 2/(3x^4) - 3/(4x^5)) make a function non-polynomial because they produce negative exponents.
😀 The degree of a polynomial is the highest exponent of the variable in the function.
😀 The leading coefficient is the coefficient of the term with the highest degree.
😀 The constant term is the term without any variable.
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😀 Simplifying expressions is essential to correctly identify degree, leading coefficient, and constant term (e.g., y = x(x^2 - 5) becomes y = x^3 - 5x).
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😀 Properly identifying polynomial functions involves checking for restrictions: no radicals, no fractional exponents, and no negative exponents.

Q & A

What is the general form of a polynomial function?
-A polynomial function can be represented as P(x) = a_n x^n + a_{n-1} x^{n-1} + ... + a_2 x^2 + a_1 x + a_0, where a_n, a_{n-1}, ..., a_0 are constants, x is the variable, and n is a non-negative integer.
What are the restrictions for a function to be considered a polynomial?
-A function is a polynomial if it does not have variables inside radical signs, fractional exponents, or negative exponents (no variables in denominators).
Is y = 14x a polynomial function and why?
-Yes, y = 14x is a polynomial function because it has a variable with a non-negative integer exponent and no restrictions are violated.
Why is y = 5x^3 - 4√(2x) + x not a polynomial function?
-It is not a polynomial function because the variable x is inside a radical (square root), which is not allowed in polynomial functions.
Why is y = x^(3/4) + 3x^(1/4) + 7 not a polynomial function?
-It is not a polynomial function because it contains fractional exponents, which are not permitted in polynomials.
How can y = 1/2 x^3 + 2/3 x^4 - 3/4 x^5 be rewritten, and why is it not a polynomial?
-It can be rewritten as (1/2)x^3 + (2/3)x^4 - (3/4)x^5, but if expressed with the variable in the denominator it would have negative exponents, which violates polynomial rules.
What is the degree, leading coefficient, and constant term of f(x) = 2x^2 - 11x + 2?
-The degree is 2 (highest exponent), the leading coefficient is 2 (coefficient of the leading term), and the constant term is 2.
How do you determine the degree of a polynomial function?
-The degree of a polynomial function is determined by the highest exponent of the variable after simplifying the function.
What is the degree, leading coefficient, and constant term of y = x(x^2 - 5)?
-After simplifying, y = x^3 - 5x. The degree is 3, the leading coefficient is 1, and the constant term is 0.
What is the degree, leading coefficient, and constant term of y = x^4 + 2x^3 - x^2 + 14x - 56?
-The degree is 4, the leading coefficient is 1, and the constant term is -56.
Why is y = -2022x considered a polynomial function?
-It is considered a polynomial function because it has a single term with a variable raised to a non-negative integer exponent and does not violate any polynomial restrictions.