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Updated on 24th July, 2024 , 5 min read
In the number system, real numbers are just the sum of rational and irrational numbers. All arithmetic operations may be done on these numbers in general and can also be represented on a number line. Simultaneously, imaginary numbers are unreal numbers that cannot be stated on a number line and are typically employed to represent complex numbers. Examples of actual numbers are 23, -12, 6.99, 5/2, and so on.
The combination of rational and irrational numbers yields real numbers. They can be either positive or negative and are represented by the letter "R". This category includes all-natural integers, decimals, and fractions.
A number line assists us in displaying numbers by portraying each one with a distinct point on the line. Every point on the number line represents a separate real number. One can refer to the procedures below to portray actual numbers on a number line-
Step 1: Draw a horizontal line with arrows on both ends and a 0 in the center. The number 0 is known as the origin.
Step 2: Draw a straight line parallel to the origin and identify it with a specified scale.
Step 3: It should be noticed that positive numbers are on the right side of the origin and negative numbers are on the left.
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Real numbers, as we already know, encompass both rational and irrational numbers. The following are some of the types of real numbers-
Read more about the Signum Functions in Mathematics.
The sign R represents real numbers. Here is a list of the different sorts of number symbols-
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The set of real numbers is divided into several groups, including natural and whole numbers, integers, and rational and irrational numbers. All real numbers formulae (i.e., the representation of the categorization of real numbers) are specified with examples in the table below-
Particulars | Definition | Examples |
Integers | The sum of all whole numbers and the inverse of all natural numbers. | It includes: Infinity (∞), -4, -3, -2, -1, 0, 1, 2, 3, 4,......+infinity (∞). |
Irrational Numbers | Numbers that are not rational and cannot be expressed in the manner described p/q. | Irrational numbers, such as 2, are non-terminating and non-repeating. |
Natural Numbers | Include all counting numbers beginning with 1. N = {1, 2, 3, 4,……} | All numerals begin with 1, 2, 3, 4, 5, 6, etc. |
Rational Numbers | Numbers that may be expressed as p/q, where q = 0. | Examples of rational numbers are 12, 5/4, and 12/6, among others. |
Whole Numbers | A collection of natural and zero numbers. W = {0, 1, 2, 3,…..} | All numerals beginning with 0, such as 0, 1, 2, 3, 4, 5, 6, etc. |
The four main properties of real numbers are as follows-
Consider the three real numbers "a, b, and c." Then, as shown below, the aforesaid qualities may be represented using a, b, and c as follows-
According to the closure property, the sum and product of two real numbers is always a real number. For Example: If a,b and c are real numbers then, a+ b x R = a x b + R.
If a, b, and c are integers,
If the numbers are a and b, the typical form is a + b = b + a for addition and a.b = b.a for multiplication.
The distributive property is expressed as follows for three real numbers m, n, and r-
m(n+ r) = mn + mr and (m + n)r = mr + nr. For Example: 8(5 + 1) = 8 x 5 + 8 x 1. In this case, both sides will produce 48.
Identity can be additive or multiplicative.
For Addition: m + 0 = m. (0 represents the additive identity).
For Multiplication: m x 1 = 1 x m = m. (1 represents the multiplicative identity).
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The chart below shows a set of real numbers that includes all of the components of real numbers-
The primary distinction between real numbers and integers is that real numbers contain integers. In other words, integers fall within the realm of real numbers. The following table will help us grasp the distinction between real numbers and integers-
Real Numbers | Integers |
Real numbers are composed of rational, irrational, whole, and natural numbers. | Negative numbers, positive numbers, and zero are all examples of integers. |
Real number examples include 1/2, -2/3, 0.5, and 2. | Integer Examples: -4, -3, 0, 1, 2. |
Every point on the number line corresponds to a different real number. | On a number line, integers are represented by whole numbers and negative numbers. |
Decimals and fractions are regarded as real numbers. | Decimals and fractions are not included in integers. |
R is the symbol used to represent real numbers. | Integers are represented by the symbol Z. |
Read more about Rational Numbers.
The following are some tips for real numbers-
Solution- a) ¼
1/4 = (1 × 25)/(4 × 25) = 25/100 = 0.25
b) 5/8 = (5 × 125)/(8 × 125) = 625/1000 = 0.625
1.25 = 125/100
If we divide this by 100/125,
We get 125/100 x 100/125 = 1.
Solution: We will use the same denominator for both the supplied rational numbers,
(1 x 5)/(2 x 5) = 5/10 and (3 x 2)/(5 x 2) = 6/10.
Now, multiply the numerator and denominator of each rational number by 6, and we get.
(5 x 6)/(10 x 6) = 30/60 and (6x 6)/(10 x 6) = 36/60.
31/60, 32/60, 33/60, 34/60, and 35/60 are five rational numbers between 1/2 = 30/60 and 3/5 = 36/60.
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By - Nikita Parmar 2024-09-06 10:59:22 , 6 min readAns. No, no actual numbers exist that are neither rational nor irrational. According to the definition of real numbers, they are a blend of rational and irrational numbers.
Ans. Real numbers are subsets of rational numbers, irrational numbers, natural numbers, and whole numbers.
Ans. Zero is thought to be both a real and an imaginary number. Imaginary numbers, as we know, are the square root of non-positive real numbers. And, because 0 is also a non-positive number, it meets the conditions for an imaginary number. 0 is also a rational number that may be defined on a number line and hence a real number.
Ans. Natural numbers are all positive integers from one to infinity. Natural numbers are all integers, however, not all integers are natural numbers. This is the collection of all counting numbers, such as 1, 2, 3, 4, 5, 6, 7, 8, 9, and so on.
Ans. Yes, the number three is real. A real number is known to be a blend of rational and irrational numbers. We might also state that 3 is a real number because it is an irrational number.
Ans. The real numbers have the following properties- 1. Identity Property 2. Commutative Property 3. Associative Property 4. Distributive Property
Ans. Yes, since a complex number is made up of a real and an imaginary number. As a result, if the complex number is a set, the real and imaginary numbers are subsets of it.
Ans. No, 3i is not a real number since it contains an imaginary portion.