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Question 17
Prove that the area of the semi-circle drawn on the hypotenuse of a right angled triangle is equal to the sum of the areas of the semi-circles drawn on the other two sides of the triangle.

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Solution

Let ABC be a right triangle, right angled at B and AB = y, BC = x.
Three semi – circles are drawn on the sides AB, BC and AC, respectively with diameter AB, BC and AC, respectively.
Again, let the areas of circles with diameters AB, BC and AC are respectively A1,A2 and A3.
To prove that A3=A1+A2
Proof
In ΔABC, by using Pythagoras theorem,
AC2=AB2+BC2
AC2=y2+x2
AC=y2+x2
We know that, area of a semi – circle with radius, r=πr22

Area of semi – circle drawn on AC, A3=π2(AC2)2=π2(y2+x22)2
A3=π(y2+x2)8 …..(i)
Now, area of semi – circle drawn on AB, A1=π2(AB2)2
A1=π2(y2)2A1=πy28 ….(ii)
And area of semi – circle drawn on BC, A2=π2(BC2)2=π2(x2)2
A2=πx28 .......(iii)
On adding Eq.s (ii) and (iii), we get A1+A2=πy28+πx28
=π(y2+x2)8=A3 [from Eq.(i)]
A1+A2=A3


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