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### Course: Algebra 1 > Unit 13

Lesson 1: Multiplying monomials by polynomials# Polynomials intro

This introduction to polynomials covers common terminology like terms, degree, standard form, monomial, binomial and trinomial. Polynomials are sums of terms of the form k⋅xⁿ, where k is any number and n is a positive integer. For example, 3x+2x-5 is a polynomial. Created by 1. Hello Fren.

## Want to join the conversation?

- why terms with negetive exponent not consider as polynomial?(40 votes)
- It is because of what is accepted by the math world. If you have 5^-2, it can be simplified to 1/5^2 or 1/25; therefore, anything to the negative power isn't in its simplest form. Also, not sure if Sal goes over it but you can't have a term being divided by a variable for it to be a polynomial (ie 2/x+2) However, (6x+5x^2)/(x) is a polynomial because once simplified it becomes 6+5x or 5x+6.(79 votes)

- I have four terms in a problem is the problem considered a trinomial(8 votes)
- "mono" meaning one

"bi" meaning two

"tri" meaning three

and "poly" meaning "many"

so,

if you have one term its a monomial

if you have two terms its a binomial

if you have three terms its a trinomial

if you have a four terms its a four term polynomial

if you have more than four terms then for example five terms you will have a five term polynomial and so on

hope this helped!(112 votes)

- When we write a polynomial in standard form, the highest-degree term comes first, right? And
**leading coefficients**are the coefficients of the first term. So does that also mean that**leading coefficients**are the coefficients of the highest-degree terms of any polynomial, regardless of their order?(22 votes)- Correct, standard form means that the terms are ordered from biggest exponent to lowest exponent. The leading coefficient is the coefficient of the first term in a polynomial in standard form. For example, 3x^4 + x^3 - 2x^2 + 7x. This polynomial is in standard form, and the leading coefficient is 3, because it is the coefficient of the first term. Keep in mind that for any polynomial, there is only
*one*leading coefficient.(27 votes)

- Can x be a polynomial term?(15 votes)
- Yes, "x" can be a polynomial term. It can even be a polynomials called a monomial.(31 votes)

- A constant has what degree?(13 votes)
- A constant would be to the 0th degree while a linear is to the 1st power, quadratic is to the 2nd, cubic is to the 3rd, the quartic is to the 4th, the quintic is to the fifth, and any degree that is 6 or over 6 then you would say 'to the
*__*degree, or of the*__*degree.(23 votes)

- If I have something like (2x+3)(5x+4) would this be a binomial if not what can I call it?(8 votes)
- It is the multiplication of two binomials which would create a trinomial if you double distributed (10x^2 +23x + 12).(14 votes)

- So the term 6 by itself is a monomial and a polynomial? I'm confused, can someone explain this a bit clearer?(7 votes)
- term 6 is a polynomial. it is also a mononomial which is a subclassification.(10 votes)

- I now know how to identify polynomial. But how do you identify trinomial, Monomials, and Binomials(4 votes)
- They are all polynomials.

Sal goes thru their definitions starting at6:00in the video.

A monomials is a polynomial with only 1 term

A binomial is a polynomial with 2 terms.

A trinomial is a polynomial with 3 terms.

Hope this helps.(16 votes)

- I have a few doubts...

Why should a polynomial have only non-negative integer powers, why not negative numbers and fractions?Is there any specific name for those expressions with a variable as a power and why can't such expressions be polynomials?(4 votes)- Given that x^-1 = 1/x, a polynomial that contains negative exponents would have a variable in the denominator. This drastically changes the shape of the graph, adding values at which the graph is undefined and changes the shape of the curve since a variable in the denominator behaves differently than variables in the numerator would. These are called rational functions. Equations with variables as powers are called exponential functions. They are curves that have a constantly increasing slope and an asymptote.(13 votes)

- Is k⋅xⁿ a polynomial if k is an irrational number? For example 5√-1⋅xⁿ, would this be considered a monomial?(5 votes)
- You have an exponential expression because "x" has a variable for its exponent. This indicates that the exponent can be any real number. With a polynomial, the exponents on variables must be whole number. So, your expression is not a polynomial.

5√(-1) is an imaginary number, not an irrational number. Irrational numbers would be a non-repeating and non-terminating decimal. Numbers like Pi, or a square root that contains a real number that is not a perfect square would be irrational numbers.

Now, if you had an expression: 5√(2) x^2, it would be a polynomial with a coefficient that is an irrational number.

The coefficients and constant terms in a polynomial are real numbers: integers, decimals, fractions, and irrational numbers. You would not have a complex number as a coefficient. Though, you can have solutions to polynomial equations that are complex numbers.

Hope this helps.(10 votes)

## Video transcript

- [Sal] Let's explore the
notion of a polynomial. This seems like a very complicated word, but if you break it down
it'll start to make sense, especially when we start to
see examples of polynomials. The first part of this word, lemme underline it, we have poly. This comes from Greek, for many. You see poly a lot in
the English language, referring to the notion
of many of something. In this case, it's many nomials. Nomial comes from Latin, from
the Latin nomen, for name. You could view this as many names. But in a mathematical context, it's really referring to many terms. We're gonna talk, in a little bit, about what a term really is. But to get a tangible sense
of what are polynomials and what are not polynomials,
lemme give you some examples. And then we could write some, maybe, more formal rules for them. So, an example of a polynomial could be 10x to the seventh power
minus nine x squared plus 15x to the third plus nine. This is a polynomial. Another example of a polynomial. Nine a squared minus five. Even if I just have one number, even if I were to just
write the number six, that can officially be
considered a polynomial. If I were to write seven
x squared minus three. Lemme do it another variable. Seven y squared minus three y plus pi, that, too, would be a polynomial. These are examples of polynomials. What are examples of things
that are not polynomials? Well, if I were to
replace the seventh power right over here with a
negative seven power. If I were to write 10x to
the negative seven power minus nine x squared plus 15x
to the third power plus nine, this would not be a polynomial. So I think you might
be sensing a rule here for what makes something a polynomial. You have to have nonnegative powers of your variable in each of the terms. I just used that word,
terms, so lemme explain it, 'cause it'll help me explain
what a polynomial is. A polynomial is something that
is made up of a sum of terms. And so, for example, in
this first polynomial, the first term is 10x to the seventh; the second term is
negative nine x squared; the next term is 15x to the third; and then the last term, maybe you could say the
fourth term, is nine. You can see something. Let me underline these. These are all terms. This is a four-term
polynomial right over here. You could say: "Hey, wait,
this thing you wrote in red, "this also has four terms." We have to put a few more rules for it to officially be a polynomial, especially a polynomial in one variable. Each of those terms are going to be made up of a coefficient. This is the thing that multiplies the variable to some power. So in this first term
the coefficient is 10. Lemme write this word down, coefficient. It's another fancy word,
but it's just a thing that's multiplied, in this case, times the variable, which
is x to seventh power. The first coefficient is 10. The next coefficient. Actually, lemme be careful here, because the second coefficient
here is negative nine. We are looking at coefficients. The third coefficient here is 15. You can view this fourth
term, or this fourth number, as the coefficient because
this could be rewritten as, instead of just writing as nine, you could write it as
nine x to the zero power. And then it looks a little bit
clearer, like a coefficient. So, in general, a polynomial is the sum of a finite number of
terms where each term has a coefficient, which I could represent with the letter A, being
multiplied by a variable being raised to a
nonnegative integer power. So, this right over here is a coefficient. It can be, if we're dealing... Well, I don't wanna get too technical. Positive, negative number. Could be any real number. We have our variable. And then the exponent,
here, has to be nonnegative. Nonnegative integer. So here, the reason
why what I wrote in red is not a polynomial is because here I have an exponent that is a negative integer. Let's give some other examples of things that are not polynomials. So, if I were to change the second one to, instead of nine a squared, if I wrote it as nine a to
the one half power minus five, this is not a polynomial
because this exponent right over here, it is
no longer an integer; it's one half. This is the same thing as nine times the square root of a minus five. This also would not be a polynomial. Or, if I were to write nine
a to the a power minus five, also not a polynomial
because here the exponent is a variable; it's not
a nonnegative integer. All of these are examples of polynomials. There's a few more pieces of terminology that are valuable to know. Polynomial is a general term
for one of these expression that has multiple terms, a finite number, so not an infinite number, and each of the terms has this form. But there's more specific terms for when you have only one term or
two terms or three terms. When you have one term,
it's called a monomial. This is a monomial. This is an example of a monomial, which we could write as six x to the zero. Another example of a monomial might be 10z to the 15th power. That's also a monomial. Your coefficient could be pi. Pi. Whoops. Could be pi. So we could write pi times
b to the fifth power. Any of these would be monomials. So what's a binomial? Binomial's where you have two terms. Monomial, mono for one, one term. Binomial is you have two terms. This right over here is a binomial. Binomial. You have two terms. All these are polynomials but
these are subclassifications. It's a binomial; you have one, two terms. Another example of a binomial would be three y to the third plus five y. Once again, you have two terms that have this form right over here. You'll also hear the term trinomial. Trinomial's when you have three terms. Trinomial. This right over here is an example. This is the first term; this is the second term; and this is the third term. Now, the next word that
you will hear often in the context with
polynomials is the notion of the degree of a polynomial. You might hear people say: "What is the degree of a polynomial?", or "What is the degree of a
given term of a polynomial?" Let's start with the
degree of a given term. Let's go to this polynomial here. We have this first term,
10x to the seventh. The degree is the power that
we're raising the variable to. So this is a seventh-degree term. The second term is a second-degree term. The third term is a third-degree term. And you could view this constant term, which is really just nine,
you could view that as, sometimes people say the constant term. Sometimes people will
say the zero-degree term. If people are talking about the degree of the entire polynomial,
they're gonna say: "What is the degree of the highest term? "What is the term with
the highest degree?" That degree will be the degree
of the entire polynomial. So, this first polynomial, this is a seventh-degree polynomial. This one right over here is
a second-degree polynomial because it has a second-degree term and that's the highest-degree term. This right over here is a third-degree. You could even say third-degree binomial because its highest-degree
term has degree three. If this said five y to the
seventh instead of five y, then it would be a
seventh-degree binomial. This right over here is
a 15th-degree monomial. This is a second-degree trinomial. A few more things I will introduce you to is the idea of a leading term
and a leading coefficient. Lemme write this down. The notion of what it means to be leading. It can mean whatever is the
first term or the coefficient. If you're saying leading
term, it's the first term. If you're saying leading coefficient, it's the coefficient in the first term. But it's oftentimes associated with a polynomial being
written in standard form. Standard form. Standard form is where you write the
terms in degree order, starting with the highest-degree term. So, for example, what I have up here, this is not in standard form; because I do have the
highest-degree term first, but then I should go to the next highest, which is the x to the third. But here I wrote x squared
next, so this is not standard. If I wanted to write it in standard form, it would be 10x to the seventh power, which is the highest-degree
term, has degree seven. Then, 15x to the third. So, plus 15x to the third, which
is the next highest degree. Then, negative nine x squared is the next highest degree term. And then, the lowest-degree
term here is plus nine, or plus nine x to zero. Now this is in standard form. I have written the terms in
order of decreasing degree, with the highest degree first. Here, it's clear that your leading term is 10x to the seventh,
'cause it's the first one, and our leading coefficient
here is the number 10. So, there was a lot in that video, but hopefully the notion of a polynomial isn't seeming too
intimidating at this point. These are really useful
words to be familiar with as you continue on on your math journey.