I am given that for two points $A, B$ on a circle, the length of the arc from $A$ to $B$ is $15$ whereas the length of the chord $\overline{AB}$ is $14$. How can I find the radius of the concerned circle?
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2What curve? Do you mean that you are given that for two point $A,B$ on a circle, the length of the arc from $A$ to $B$ is 15 whereas the length of the chord $\overline{AB}$ is 14? Having at least one complete sentence would greatly help understand the problem statement ... – Hagen von Eitzen Nov 16 '16 at 11:40
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This is a very poorly worded question. Try to enhance it lest it will be downvoted/closed. – DonAntonio Nov 16 '16 at 11:46
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I am Asking about circular curve.Arc length is 15 and the chord length is 14.so how to find Radius of the Curve ?? – Mujahid Khan Nov 16 '16 at 11:52
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1See this well-asked and well-answered earlier question. – John Hughes Nov 16 '16 at 12:02
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If $r$ is the radius and $2\alpha$ the subtended angle, the the arc length is given by $15=2r\alpha$ and the chord length by $14=2r\sin\alpha$. Thus by eliminating $r$, we find the condition $$\tag1\frac{\sin \alpha}\alpha=\frac{14}{15} $$ for $\alpha$. Numerically$^{[1]}$, we obtain $\alpha\approx 0.63894677233$ and hence $r=\frac{15}{2\alpha}\approx 11.738$ and finally for the height of the segment $h=r(1-\cos\alpha)\approx 2.3156$.
$^{[1]}$ Unfortunately, there is no elementary way to solve $(1)$
Hagen von Eitzen
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$\theta=$angle subtended by half arc at the center $=\frac{15/2}{r}=\frac{15}{2r}\tag 1$
now, consider a right triangle $$\sin \theta=\frac{14/2}{r}=\frac 7r\tag 2$$ dividing (2) by (1), $$\frac{\sin\theta}{\theta}=\frac{7/r}{15/2r}=\frac{14}{15}$$ solving above equation gives, $\theta\approx 0.638947$
now, you can take from here
Bhaskara-III
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