Finding Maximum Range R for Jumping from Cliff: Mechanics Question

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To find the maximum range R when jumping from a cliff, the relationship between R, the jump angle beta, and the height d is established through the equation Rsin(2beta) + d(1 + cos(2beta)) = (R^2)g/v^2. The condition for maximum range is given by tan(2beta) = R/d. To derive this condition, taking the derivative of the first relation with respect to beta is suggested. This approach will help in determining the optimal angle for achieving maximum horizontal distance. Understanding these mechanics is crucial for solving the problem effectively.
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Suppose I am standing at the top of a cliff which is a vertical distance (d) above the ground. Now, if I jump off the slide at an angle beta upwards at an initial velocity (v), I will travel a horizontal distance of (R). I have proved the first part of the question which shows these quantities are related by the equation:

Rsin(2beta) + d(1 + cos(2beta))=(R^2)g/v^2

where g is 9.8 meters per second squared.

Ok, now here is the relation which I am having problems solving:

The condition for maximum range R is

tan(2beta)=R/d.

I have no idea how to go about showing this. Any ideas or suggestions?
 
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Start by taking the derivative with respect to beta of your first relation.
 
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