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  • Hi, I’m Rob. Welcome to Math Antics.

  • In this video, were going to learn about Polynomials.

  • That’s a big math word for a really big concept in Algebra, so pay attention.

  • Now before we can understand what polynomials are, we need to learn about what mathematicians callterms”.

  • In Algebra, terms are mathematical expressions that are made up of two different parts:

  • a number part and a variable part.

  • In a term, the number part and the variable part are multiplied together,

  • but since multiplication is implied in Algebra,

  • the two parts of a term are usually written right next to each other with no times symbol between them.

  • The number part is pretty simpleit’s just a number, like 2 or 5 or 1.4

  • And the number part has an official nameit’s called thecoefficient”.

  • Now there’s another cool math word that you can use to impress your friends at parties!

  • [party music, crowd noise]

  • and then I said, “That’s not my wifethat’s my coefficient!”

  • [silence / crickets chirping]

  • The variable part of a term is a little more complicated.

  • It can be made up of one or more variables that are raised to a power.

  • Likethe variable part could be 'x squared'. That’s a variable raised to a power.

  • Or, the variable part could be just ‘y’.

  • If you remember what we learned in our last video, youll realize that that also qualifies as a variable raised to a power.

  • ‘y’ is the same as ‘y’ to the 1st power.

  • But since the exponent ‘1’ doesn’t change anything, we don’t need to actually show it.

  • Orthe variable part of a term could be some tricky combination of variables that are raised to powers,

  • like ‘x squaredtimes ‘y squared’.

  • or ‘a’ times ‘b squaredtimes ‘c cubed’.

  • Terms can have any number of variables like that, but the good news is that most of the time,

  • youll only need to deal with terms that have one variable. …or maybe two in complicated problems.

  • Oh, and there’s one thing I should point out before we move on

  • if you have a term like 6y, even though it would be fine to do the multiplication the other way around and write y6,

  • it’s conventional to always write the number part of the term first and the variable part of the term second.

  • Okay, so that’s the basic idea of a term.

  • But there’s a little more to terms that well learn in a minute.

  • First, let’s see how this basic idea of a term helps us understand the basic idea of a polynomial.

  • A polynomial is a combination of many terms.

  • It’s kind of like a chain of terms that are all linked together using addition or subtraction.

  • The terms themselves contain multiplication, but each term in a polynomial must be joined by either addition or subtraction.

  • And polynomials can be made from any number of terms joined together,

  • but there are a few specific names that are used to describe polynomials with a certain number of terms.

  • If there’s only one term (which isn’t really a chain) then we call it a “monomialbecause the prefixmonomeansone”.

  • If there are just two terms, then we call it a “binomialbecause the prefixbimeanstwo”,

  • and if there are three terms, then we call it a “trinomialsince the prefixtrimeansthree”.

  • Beyond three terms, we usually just saypolynomialsincepolymeansmany”,

  • and in fact, it’s common to simply use the termpolynomialeven when there are just 2 or 3 terms.

  • Okay, so that’s the basic idea of a polynomial.

  • It’s a series of terms that are joined together by addition or subtraction.

  • Now, let’s see a typical example of a polynomial that will help us learn a little more about terms: 3 ‘x squaredplus ‘x’ minus 5

  • How many terms does this polynomial have?

  • Well, based on what weve learned so far, youre probably not quit sure.

  • If the terms are the parts that are joined together by addition or subtraction, then this should have three terms,

  • but it looks like there’s something missing with the last two terms.

  • This middle term is missing its number part, and this last term is missing its variable part.

  • That doesn’t seem to fit with our original definition of a term. What’s up with that?

  • Well, the middle term is easy to explain.

  • There really is a number part there, but it’s just ‘1’.

  • Do you remember how ‘1’ is always a factor of any number?

  • But, since multiplying by ‘1’ has no effect on a number or variable, we don’t need to show it.

  • So, if you see a term in a polynomial that has only a variable part, you know that the number part (or coefficient) of that term is just ‘1’.

  • Okay, but what about this last term that’s missing its variable part?

  • Well, that’s a little trickier. Do you remember in our last video about exponents in Algebra,

  • we learned that any number or variable that’s raised to the 0th power just equals ‘1’?

  • That means we can think of this last term as having a variable ‘x’ that’s being raised to the 0th power.

  • Since that would always just equal ‘1’, it’s not really a variable in the true sense of the word,

  • and it has no effect on the value of the term.

  • But it makes sense, especially if you remember the other rule from the last video.

  • That rule says that any number raised to the 1st power is just itself,

  • which helps us see that this middle term is basically the same as ‘1x’ raised to the 1st power.

  • Now do you see the pattern?

  • Each term has a number part and each term has a variable part that is raised to a power: 0, 1 and 2.

  • But since ‘x’ to the ‘0’ is just ‘1’,

  • and ‘x’ to the ‘1’ is just ‘x’,

  • and anything multiplied by ‘1’ is just itself,

  • the polynomial gets simplified so that it no longer looks exactly like the pattern it comes from.

  • Oh, and this last termthe one that doesn’t have a truly variable part

  • it’s called a CONSTANT term because its value always stays the same.

  • AlrightNow that you know what a Polynomial is, let’s talk about an important property of terms and polynomials called theirdegree”.

  • Now that might sound like the units we use to measure temperature or angles, but the degree were talking about here is different.

  • The degree of a term is determined by the power of the variable part.

  • For example, in this term, since the power of the variable is 4, we say that the degree of the term is 4, or that it’s a 4th degree term.

  • And in this term, the power of the variable is 3, so it’s a 3rd degree term.

  • Likewise, this would be a 2nd degree term and this would be a 1st degree term.

  • Oh, and I suppose you could call a term with no variable part a “zero degreeterm,

  • but it’s usually just referred to as a “constant term”.

  • Things are a little more complicated when you have terms with more that one variable.

  • In that case, you add up the powers of each variable to get the degree of the term.

  • Since the powers in this term are 3 and 2, it’s a 5th degree term because 3 + 2 = 5.

  • Okay, but why do we care about the degree of terms?

  • Well, it’s because polynomials are often referred to by the degree of their highest term.

  • If a polynomial contains a 4th degree term (but no higher terms), then it’s called a “4th degreepolynomial.

  • But if its highest term is only a 2nd degree term, then it’s called a “2nd degreepolynomial.

  • Another reason that we care about the degree of the terms is that it helps us decide the arrangement of a polynomial.

  • We arrange the terms in a polynomial in order from the highest degree to the lowest.

  • ya know, cuz, mathematicians like to keep things organized

  • [mumbeling] …nicelet’s seedouble check

  • Perfect!

  • For example, this polynomial (which has 5 terms)

  • should be rearranged so that the highest degree term is on the left, and the lowest degree term is on the right.

  • But of course, not every polynomial has a term of every degree.

  • This is a 5th degree polynomial, but it only has 3 terms.

  • We should still put them in order from highest to lowest, even though it has terms that are missing.

  • So, the “4x to the fifthshould come first.

  • And then theminus 10x”.

  • And finally, theplus 8”.

  • By the way, it’s totally fine for a polynomial to havemissingterms like that.

  • And it’s sometimes helpful to think of those missing terms as just having coefficients that are all zeros.

  • If the coefficient of a term is zero, then the whole term has a value of zero so it wouldn’t effect the polynomial at all.

  • And speaking of coefficients

  • What if we need to re-arrange this polynomial so that its terms are in order from highest degree to lowest degree?

  • The highest degree term is ‘5x squaredbut before we just move it to the front of the polynomial,

  • it’s important to notice that it’s got a minus sign in front of it.

  • Normally when we see a minus sign, we think of subtraction, but when it comes to polynomials,

  • it’s best to think of a minus sign as a NEGATIVE SIGN that means the term right after it has a negative value (or a negative coefficient).

  • In fact, instead of thinking of a polynomial as having terms that are added OR subtracted,

  • it’s best to think of ALL of the terms as being ADDED,

  • but that each term has either a POSITIVE or a NEGATIVE coefficient which is determined by the operator right in front of that term.

  • For example, if you have this Polynomial, you should treat it as if all of the terms are being added together,

  • and use the sign that’s directly in front of each term to tell you if it’s a positive or a negative term.

  • This first term has a coefficient ofnegative 4’, so it’s a negative term.

  • The next term has a coefficient ofpositive 6’, so it’s positive.

  • The next term has a coefficient ofnegative 8’, so it’s negative.

  • And the constant term is justpositive 2’.

  • And recognizing positive and negative coefficients helps us a lot when

  • rearranging polynomials that have a mixture of positive and negative terms like our example here.

  • If you think of the negative sign in front of the ‘5x squaredterm as part of its coefficient,

  • then youll realize that when we move it to the front of the polynomial, the negative sign has to come with it.

  • It has to come with it because it’s really a NEGATIVE term.

  • If we don’t bring the negative sign along with it, well be changing it into a positive term

  • which would actually change the value of the polynomial.

  • And in addition to helping us re-arrange them,

  • treating a polynomial as a combination of positive and negative terms will be very helpful when we need to simplify them,

  • which just so happens to be the subject of our next basic Algebra video.

  • Alright, weve learned a LOT about polynomials in this video,

  • and if youre a little overwhelmed, don’t worryit might just take some time for it all to make sense.

  • Remember, you can always re-watch this video a few times,

  • and doing some of the practice problems will help it all sink in.

  • As always, thanks for watching Math Antics, and I’ll see ya next time.

  • Learn more at www.mathantics.com

Hi, I’m Rob. Welcome to Math Antics.

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代数学の基礎。多項式とは何か?- 数学アンチックス (Algebra Basics: What Are Polynomials? - Math Antics)

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    Yassion Liu に公開 2021 年 01 月 14 日
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