Math, asked by kk0611, 1 year ago

how to draw square of 2 on a number line​

Answers

Answered by SavvyVagish
1

Step-by-step explanation:

this topic, we’ll try to understand the representation of square root numbers also known as irrational numbers on the number line. Before going on the topic, let’s understand a simple concept of Pythagoras Theorem, which states that:

“if ABC is a right angled triangle with AB, BC and AC as the perpendicular, base and hypotenuse of the triangle respectively with AB = x units and BC = y units. Then, the hypotenuse of the triangle, AC is given by \(\sqrt{x^{2} + y^{2}}\)

Irrational Numbers

Now lets get back to the original topic , i.e., representation of irrational numbers on the number line.

To have better understanding of the concept lets take an example of representation of square root of 2 (\(\sqrt{2}\)) on the number line. For the representation following steps must be followed:

Step I: Draw a number line and mark the centre point as zero.

Step II: Mark right side of the zero as (1) and the left side as (-1).

Irrational Numbers Number Line

Step III: We won’t be considering (-1) for our purpose.

Step IV: With same length as between 0 and 1, draw a line perpendicular to point (1), such that new line has a length of 1 unit.

Step V: Now join the point (0) and the end of new line of unity length.

Step VI: A right angled triangle is constructed.

Step VII: Now let us name the trianlge as ABC such that AB is the height (perpendicular), BC is the base of triangle and AC is the hypotenuese of the right angled triangle ABC.

Square Root of 2

Step VIII: Now length of hypotenuse, i.e., AC can be found by applying pythagoras theorem to the triangle ABC.

AC\(^{2}\)= AB\(^{2}\) + BC\(^{2}\)

⟹ AC\(^{2}\) = 1\(^{2}\) + 1\(^{2}\)

⟹ AC\(^{2}\) = 2

⟹ AC = \(\sqrt{2}\)

Square Root of 2 on Number Line

Step IX: Now with AC as radius and C as the centre cut an arc on the same number line and name the point as D.

Step X: Since AC is the radius of the arc and hence, CD will also be the radius of the arc whose length is \(\sqrt{2}\).

Step XI: Hence, D is the representation of \(\sqrt{2}\) on the number line.

Represent Square Root of 2 on Number Line

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2. Represent \(\sqrt{5}\) on the number line.

Solution:

Steps involved are as follows:

Step I: Draw a number line and mark the center point as zero.

Step II: Mark right side of the zero as (1) and the left side as (-1).

Irrational Numbers Number Line

Step III: We won’t be considering (-1) for our purpose.

Step IV: With 2 units as length draw a line from (1) such that it is perpendicular to the line.

Step V: Now join the point (0) and the end of new line of 2 units length.

Step VI: A right angled triangle is constructed.

Step VII: Now let us name the triangle as ABC such that AB is the height (perpendicular), BC is the base of triangle and AC is the hypotenuse of the right angled triangle ABC.

Square Root of 5

Step VIII: Now length of hypotenuse, i.e., AC can be found by applying Pythagoras theorem to the triangle ABC.

AC\(^{2}\) = AB\(^{2}\) + BC\(^{2}\)

⟹ AC\(^{2}\) = 2\(^{2}\) + 1\(^{2}\)

⟹ AC\(^{2}\) = 4 + 1

⟹ AC\(^{2}\) = 5

⟹ AC = \(\sqrt{5}\)

Square Root of 5 on Number Line

Step IX: Now with AC as radius and C as the centre cut an arc on the same number line and name the point as D.

Step X: Since AC is the radius of the arc and hence, CD will also be the radius of the arc whose length is \(\sqrt{5}\).

Step XI: Hence, D is the representation of \(\sqrt{5}\) on the number line.

Represent Square Root of 5 on Number Line

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3. Represent \(\sqrt{3}\) on the number line.

Solution:

To represent \(\sqrt{3}\)on the number line, first of all we have to represent \(\sqrt{2}\) on the number line. The procedure for the representation of \(\sqrt{2}\) will be same in the previous example. So, let’s start from there only. The steps further followed will be as:

Step I: Now we need to construct a line which is perpendicular to line AB from point A such that this new line has unity length and let’s name the new line as AE.

Square Root of 3

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Step II: Now join (C) and (E). The length of line CE could be found out by using Pythagoras theorem in right angled triangle EAC. So;

AE\(^{2}\) + AC\(^{2}\) = EC\(^{2}\)

⟹ EC\(^{2}\) = 1\(^{2}\) + \((\sqrt{2})^{2}\)

⟹ EC\(^{2}\) = 1 + 2

⟹ EC\(^{2}\) = 3

⟹ EC = \(\sqrt{3}\)

So the length of EC line is found to be \(\sqrt{3}\) units.

Square Root of 3 on Number Line

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Step III: Now, with (C) as center and EC as the radius of circle cut an arc on the number line and mark the point as F. Since, OE is the radius of the arc, hence OF will also be the radius of the arc and will have the same length as that of OE. So, OF = \(\sqrt{3}\) units. Hence, F will represent \(\sqrt{3}\) on the number line.

Represent Square Root of 3 on Number Line

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