Suppose the line joining distinct points P and Q on \((x-2)^{2}+(y-1)^{2}=r^{2}\) is the diameter of \( (x-1)^2+(y-3)^2=4\).The value of r is
\(2\)
\(3\)
\(1\)
\(9\)
\(4\)
The Correct Option is A
Solution and Explanation
Given that
The line joining distinct points P and Q on the circle with the equation \((x - 2)^2 + (y - 1)^2 = r^2\)
the diameter of the circle represented by : \((x - 1)^2 + (y - 3)^2 = 4.\)
Since P and Q lie on the diameter of the circle \((x - 1)^2 + (y - 3)^2 = 4\), the midpoint of the diameter will be the center of the circle.
So the diameter of the circle is \((1, 3).\)
Then to get the mid point of PQ we can write :
Midpoint of PQ = Center of the circle \((\dfrac{(x_p + x_q)} {2}, \dfrac{(y_p + y_q)}{2} )= (1, 3)\)
Distance(P, Q) =\(2r\)
Using the distance formula for points P and Q on the circle \((x - 2)^2 + (y - 1)^2 = r^2\):
Distance \((P, Q)^2 = [(x_q - x_p)^2 + (y_q - y_p)^2]\)
Now, we can set up the equations as :
\((x_q - x_p)^2 + (y_q - y_p)^2 = (x_p - 2)^2 + (y_p - 1)^2 = r^2 ... (1)\)
\((x_q - x_p)^2 + (y_q - y_p)^2 = 4 ... (2)\)
Equating both the equations we get,
\(r^2 = 4\)
⇒\(r=2\)
Hence the value of \(r\) is \(2\)
So, the correct option is (A) : 2.
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Concepts Used:
Circle
A circle can be geometrically defined as a combination of all the points which lie at an equal distance from a fixed point called the centre. The concepts of the circle are very important in building a strong foundation in units likes mensuration and coordinate geometry. We use circle formulas in order to calculate the area, diameter, and circumference of a circle. The length between any point on the circle and its centre is its radius.
Any line that passes through the centre of the circle and connects two points of the circle is the diameter of the circle. The radius is half the length of the diameter of the circle. The area of the circle describes the amount of space that is covered by the circle and the circumference is the length of the boundary of the circle.
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