Question:
Let AB be a chord of length 12 of the circle
\(\begin{array}{l}(x-2)^2 + (y+1)^2=\frac{169}{4}.\end{array}\)
If tangents drawn to the circle at points A and B intersect at the point P, then five times the distance of point P from chord AB is equal to _____ .
Let AB be a chord of length 12 of the circle
\(\begin{array}{l}(x-2)^2 + (y+1)^2=\frac{169}{4}.\end{array}\)
If tangents drawn to the circle at points A and B intersect at the point P, then five times the distance of point P from chord AB is equal to _____ .
\(\begin{array}{l}(x-2)^2 + (y+1)^2=\frac{169}{4}.\end{array}\)
If tangents drawn to the circle at points A and B intersect at the point P, then five times the distance of point P from chord AB is equal to _____ .
Updated On: Sep 13, 2024
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Correct Answer: 72
Solution and Explanation
Here, AM = BM = 6
\(\begin{array}{l}OM = \sqrt{\left(\frac{13}{2}\right)^2-6^2}=\frac{5}{2}\end{array}\)
\(\begin{array}{l}\sin \theta =\frac{12}{13}\end{array}\)
In ΔPAO,
\(\begin{array}{l}\frac{PO}{OA}=\sec \theta\end{array}\)
\(\begin{array}{l}PO = \frac{13}{2}\cdot \frac{13}{5}=\frac{169}{10}\end{array}\)
\(\begin{array}{l}\therefore PM = \frac{169}{10}-\frac{5}{2}=\frac{144}{10}=\frac{72}{5}\end{array}\)
\(\begin{array}{l}\therefore 5PM = 72\end{array}\)
\(\begin{array}{l}OM = \sqrt{\left(\frac{13}{2}\right)^2-6^2}=\frac{5}{2}\end{array}\)
\(\begin{array}{l}\sin \theta =\frac{12}{13}\end{array}\)
In ΔPAO,
\(\begin{array}{l}\frac{PO}{OA}=\sec \theta\end{array}\)
\(\begin{array}{l}PO = \frac{13}{2}\cdot \frac{13}{5}=\frac{169}{10}\end{array}\)
\(\begin{array}{l}\therefore PM = \frac{169}{10}-\frac{5}{2}=\frac{144}{10}=\frac{72}{5}\end{array}\)
\(\begin{array}{l}\therefore 5PM = 72\end{array}\)
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Concepts Used:
Tangents and Normals
- A tangent at a degree on the curve could be a straight line that touches the curve at that time and whose slope is up to the derivative of the curve at that point. From the definition, you'll be able to deduce the way to realize the equation of the tangent to the curve at any point.
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- Slope of tangent (at x=x0) m=dy/dx||x=x0
- A normal at a degree on the curve is a line that intersects the curve at that time and is perpendicular to the tangent at that point. If its slope is given by n, and also the slope of the tangent at that point or the value of the derivative at that point is given by m. then we got
m×n = -1
- The normal to a given curve y = f(x) at a point x = x0
- The slope ‘n’ of the normal: As the normal is perpendicular to the tangent, we have: n=-1/m
Diagram Explaining Tangents and Normal:
