Pythagorean Theorem

This theorem is similar to the Pythagoras theorem but the use of it here is a little different. Normally by Pythagoras theorem, we will find the missing length in the right triangle. Here also we do the same thing but before that, we have to find the coordinates of the triangle.

Suppose from a point boy walks 4 m to the west and took a turn to the south and walked 3 m. Now to calculate the shortest distance from the initial point to the final point would be the hypotenuse of the formed triangle as shown below.

In the above diagram as you can see the initial and final points are A and C respectively. The distance is given between points A, B is 4 m and between points B, C is 3 m. To find the shortest distance which is nothing but AC we will use the Pythagorean theorem.

This is calculated using the Pythagoras theorem as follows:

=> AC2 = AB2 + BC2

=> AC = √(16 + 9)

=> AC = √25 = 5 m

Hence the shortest distance is 5 m.

Sample Problems on Pythagorean Theorem

Problem 1: Using the Pythagorean theorem, find the distance between points (-5, 2) and (7, 2)?

Solution: Let’s try to visualize the coordinates on the graph

Now, let’s join point A and B with a straight line and also draw the horizontal and vertical lines from points A and B respectively.

Horizontal and vertical lines coincide at point C. Now we have to find the horizontal and vertical distance i.e length of AC and BC.

=> AC = (x2 – x1) = (7 – (-5)) = 12

=> BC = (y2 – y1) = (2 – 7) = -5     [As distance can’t be negative, we have to only consider numerical value]

As you see in the above diagram, now the problem is turned into basic Pythagoras theorem

=> AB2 = AC2 + BC2

=> AB2 = 52 + 122

=> AB = √(25 + 144)

=> AB = √169 = 13 square units

Therefore, the distance between the given points is 13 sq units.

Problem 2: Using the Pythagorean theorem, find the distance between points (4, 8) and (6, 4)?

Solution: The first thing you have to do after seeing the question is to draw a diagram. Sometimes drawing makes the problem simple.

As we have to find the distance between points A and B, so first join those points then from point A draw a vertical line and from point B draw a horizontal line and let the point where both extended lines meet be C.

Now to find the coordinates of point C, we should keenly observe that point C is at the same level as point B i.e the Y coordinate will be the same, and similarly point A and point C will have the same X coordinate.

So coordinates of AC will become (4, 4)

Length of line BC will be (6 – 4) = 2 cm

Length of line AC will be (8 – 4) = 4 cm

Now by using Pythagoras theorem,

=> AB2 = AC2 + BC2

=> AB2 = 42 + 22

=> AB = √(16 + 4)

=> AB = √20 = 4.47 (approx)

Hence the distance between point A and B is 4.47 cm

Problem 3: Given the distance between the points M (x, 2) and N (2, 5) is 5 cm. Find the value of x?

Solution: The first step is to draw the diagram for a clear understanding of the problem.

This problem is different from previous problems because here we have to find x coordinate of point M where distance is given between the points MN

Point N is fixed but M is not fixed. But we know y coordinate of point M.

So we will draw a horizontal at y = 2. But we don’t know the x coordinate we will have several possibilities.

Now draw a vertical line from point N and name point C where both lines meet.

Length of NC = (5 – 2) = 3 cm

Length of MC = (x – 2) cm

And it is already given NM = 5 cm

Applying Pythagoras theorem,

=> NM2 = NC2 + MC2

=> 52 = 32 + (x – 2)2

=> 25 – 9 = (x – 2)2

=> 16 = (4)2 = (x – 2)2

After cancelling squares on both sides 

=> x – 2 = 4

=> x = 6

Therefore value of x is 6 and point M is (6, 2)

Distance formula – Coordinate Geometry | Class 10 Maths

The distance formula is one of the important concepts in coordinate geometry which is used widely. By using the distance formula we can find the shortest distance i.e drawing a straight line between points. There are two ways to find the distance between points:

  1. Pythagorean theorem
  2. Distance formula

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