What is called the value of an algebraic fraction. Basic concepts

When a student moves to high school, mathematics is divided into 2 subjects: algebra and geometry. There are more and more concepts, tasks are becoming more difficult. Some people have difficulty understanding fractions. Missed the first lesson on this topic, and voila. fractions? A question that will torment throughout the school life.

The concept of algebraic fraction

Let's start with a definition. Under algebraic fraction P/Q expressions are understood, where P is the numerator and Q is the denominator. A number, a numeric expression, a numerical-alphabetic expression can be hidden under an alphabetic entry.

Before wondering how to solve algebraic fractions, you first need to understand that such an expression is part of a whole.

As a rule, the whole is 1. The number in the denominator shows how many parts the unit was divided into. The numerator is needed in order to find out how many elements are taken. The fractional bar corresponds to the division sign. It is allowed to record a fractional expression as a mathematical operation "Division". In this case, the numerator is the dividend, the denominator is the divisor.

The basic rule for common fractions

When students go through this topic at school, they are given examples to reinforce. To solve them correctly and find different ways out of difficult situations, you need to apply the basic property of fractions.

It sounds like this: If you multiply both the numerator and the denominator by the same number or expression (other than zero), then the value of an ordinary fraction will not change. A special case of this rule is the division of both parts of the expression into the same number or polynomial. Such transformations are called identical equalities.

Below we will consider how to solve addition and subtraction of algebraic fractions, to perform multiplication, division and reduction of fractions.

Mathematical operations with fractions

Consider how to solve the main property of an algebraic fraction, how to apply it in practice. If you need to multiply two fractions, add them, divide one by the other, or subtract, you must always follow the rules.

So, for the operation of addition and subtraction, an additional factor should be found in order to bring the expressions to a common denominator. If initially the fractions are given with the same expressions Q, then you need to omit this item. When a common denominator is found, how to solve algebraic fractions? Add or subtract numerators. But! It must be remembered that if there is a “-” sign in front of the fraction, all signs in the numerator are reversed. Sometimes you should not perform any substitutions and mathematical operations. It is enough to change the sign in front of the fraction.

The term is often used as fraction reduction. This means the following: if the numerator and denominator are divided by an expression other than unity (the same for both parts), then a new fraction is obtained. The dividend and divisor are smaller than before, but due to the basic rule of fractions, they remain equal to the original example.

The purpose of this operation is to obtain a new irreducible expression. This problem can be solved by reducing the numerator and denominator by the greatest common divisor. The operation algorithm consists of two points:

  1. Finding the GCD for both parts of a fraction.
  2. Dividing the numerator and denominator by the found expression and obtaining an irreducible fraction equal to the previous one.

The table below shows the formulas. For convenience, you can print it out and carry it with you in a notebook. However, so that in the future, when solving a test or exam, there will be no difficulties in the question of how to solve algebraic fractions, these formulas must be learned by heart.

Some examples with solutions

From a theoretical point of view, the question of how to solve algebraic fractions is considered. The examples given in the article will help you better understand the material.

1. Convert fractions and bring them to a common denominator.

2. Convert fractions and bring them to a common denominator.

After studying the theoretical part and considering the practical issues, no more questions should arise.

This lesson discusses the concept of an algebraic fraction. A person encounters fractions in the simplest life situations: when it is necessary to divide an object into several parts, for example, to cut a cake equally for ten people. Obviously, everyone will get a piece of the cake. In this case, we are faced with the concept of a numerical fraction, but a situation is possible when an object is divided into an unknown number of parts, for example, by x. In this case, the concept of a fractional expression arises. You already met with integer expressions (not containing division into expressions with variables) and their properties in grade 7. Next, we will consider the concept of a rational fraction, as well as the allowable values ​​of variables.

Topic:Algebraic fractions. Arithmetic operations on algebraic fractions

Lesson:Basic concepts

1. Definition and examples of algebraic fractions

Rational expressions are divided into integer and fractional expressions.

Definition. rational fraction is a fractional expression of the form , where are polynomials. - numerator denominator.

Examples rational expressions:- fractional expressions; are integer expressions. In the first expression, for example, the numerator is , and the denominator is .

Meaning algebraic fraction, like any algebraic expression, depends on the numerical value of the variables that are included in it. In particular, in the first example the value of the fraction depends on the values ​​of the variables and , and in the second only on the value of the variable .

2. Calculation of the value of an algebraic fraction and two basic problems on fractions

Consider the first typical task: calculating the value rational fraction at different values variables included in it.

Example 1. Calculate the value of a fraction for a), b), c)

Solution. Substitute the values ​​of the variables into the indicated fraction: a), b), c) - does not exist (because you cannot divide by zero).

Answer: 3; one; does not exist.

As we see, there are two typical tasks for any fraction: 1) calculating the fraction, 2) finding valid and invalid values literal variables.

Definition. Valid Variable Values are the values ​​of the variables for which the expression makes sense. The set of all admissible values ​​of variables is called ODZ or domain.

3. Permissible (ODZ) and invalid values ​​of variables in fractions with one variable

The value of literal variables may be invalid if the denominator of the fraction for these values ​​is zero. In all other cases, the values ​​of the variables are valid, since the fraction can be calculated.

Example 2. Determine at what values ​​of the variable the fraction does not make sense.

Solution. For this expression to make sense, it is necessary and sufficient that the denominator of the fraction does not equal zero. Thus, only those values ​​of the variable for which the denominator will be equal to zero will be invalid. The denominator of the fraction, so we solve the linear equation:

Therefore, for the value of the variable, the fraction does not make sense.

From the solution of the example, the rule for finding invalid values ​​of variables follows - the denominator of the fraction is equal to zero and the roots of the corresponding equation are found.

Let's look at a few similar examples.

Example 3. Determine at what values ​​of the variable the fraction does not make sense.

Solution. .

Answer. .

Example 4. Determine at what values ​​of the variable the fraction does not make sense.

Solution..

There are other formulations of this problem - to find domain or range of valid expression values ​​(ODZ). This means - find all valid values ​​of variables. In our example, these are all values ​​except . The domain of definition is conveniently depicted on the numerical axis.

To do this, we will cut out a point on it, as shown in the figure:

In this way, fraction domain will be all numbers except 3.

Answer..

Example 5. Determine at what values ​​of the variable the fraction does not make sense.

Solution..

Let's depict the resulting solution on the numerical axis:

Answer..

4. Graphical representation of the area of ​​​​permissible (ODZ) and invalid values ​​​​of variables in fractions

Example 6. Determine at what values ​​of the variables the fraction does not make sense.

Solution.. We have obtained the equality of two variables, we will give numerical examples: or, etc.

Let's plot this solution on a graph in the Cartesian coordinate system:

Rice. 3. Graph of a function.

The coordinates of any point lying on this graph are not included in the area of ​​​​admissible values ​​of the fraction.

Answer. .

5. Case like "division by zero"

In the considered examples, we were faced with a situation where a division by zero occurred. Now consider the case when there is more interesting situation with division type .

Example 7. Determine at what values ​​of the variables the fraction does not make sense.

Solution..

It turns out that the fraction does not make sense when . But it can be argued that this is not the case, because: .

It may seem that if the final expression is equal to 8 for , then the original expression can also be calculated, and, therefore, makes sense for . However, if we substitute it into the original expression, we get - it does not make sense.

Answer..

To understand this example in more detail, we solve the following problem: for what values ​​is the indicated fraction equal to zero?

(a fraction is zero when its numerator is zero) . But it is necessary to solve the original equation with a fraction, and it does not make sense for , because with this value of the variable, the denominator is zero. So this equation has only one root.

6. The rule for finding ODZ

Thus, we can formulate the exact rule for finding the range of admissible values ​​of a fraction: to find ODZfractions it is necessary and sufficient to equate its denominator to zero and find the roots of the resulting equation.

We have considered two main tasks: calculating the value of a fraction for the specified values ​​of the variables and finding the area of ​​​​admissible values ​​of a fraction.

Let's now consider a few more problems that may arise when working with fractions.

7. Miscellaneous tasks and conclusions

Example 8. Prove that for any values ​​of the variable, the fraction .

Proof. The numerator is a positive number. . As a result, both the numerator and the denominator are positive numbers, therefore, the fraction is also a positive number.

Proven.

Example 9. It is known that , find .

Solution. Let's divide the fraction term by term. We have the right to reduce by, taking into account what is an invalid value of the variable for this fraction.

Answer..

In this lesson, we looked at the basic concepts related to fractions. In the next lesson, we'll look at basic property of a fraction.

Bibliography

1. Bashmakov M. I. Algebra Grade 8. - M.: Enlightenment, 2004.

2. Dorofeev G. V., Suvorova S. B., Bunimovich E. A. et al. Algebra 8. - 5th ed. - M.: Education, 2010.

3. Nikolsky S. M., Potapov M. A., Reshetnikov N. N., Shevkin A. V. Algebra 8th grade. Textbook for educational institutions. - M.: Education, 2006.

1. Festival of pedagogical ideas.

2. Old school.

3. Internet portal lib2.podelise. ru.

Homework

1. No. 4, 7, 9, 12, 13, 14. Dorofeev G. V., Suvorova S. B., Bunimovich E. A. et al. Algebra 8. - 5th ed. - M.: Education, 2010.

2. Write down a rational fraction, the domain of which is: a) a set, b) a set, c) the entire numerical axis.

3. Prove that for all admissible values ​​of the variable the value of the fraction is non-negative.

4. Find the scope of the expression. Hint: consider two cases separately: when the denominator of the lower fraction is equal to zero and when the denominator of the original fraction is equal to zero.

In § 42 it was said that if the division of polynomials cannot be performed completely, then the quotient is written as a fractional expression in which the dividend is the numerator and the divisor is the denominator.

Examples of fractional expressions:

The numerator and denominator of a fractional expression can themselves be fractional expressions, for example:

Of the fractional algebraic expressions, one often has to deal with those in which the numerator and denominator are polynomials (in particular, monomials). Each such expression is called an algebraic fraction.

Definition. An algebraic expression that is a fraction whose numerator and denominator are polynomials is called an algebraic fraction.

As in arithmetic, the numerator and denominator of an algebraic fraction are called terms of the fraction.

In the future, having studied actions on algebraic fractions, we can transform any fractional expression with the help of identical transformations into an algebraic fraction.

Examples of algebraic fractions:

Note that the whole expression, that is, the polynomial, can be written as a fraction, for this it is enough to write this expression in the numerator, and 1 in the denominator. For example:

2. Valid letter values.

The letters included only in the numerator can take any value (if no additional restrictions are introduced by the condition of the problem).

For the letters included in the denominator, only those values ​​are valid that do not turn the denominator to zero. Therefore, in what follows we will always assume that the denominator of an algebraic fraction is not equal to zero.