I need a formula for Height equals length of arc.

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To determine the angle for a projectile so that its height equals the length of its arc, one must use the equations of motion to derive a relationship between height and distance traveled. The projectile's path is parabolic, and eliminating time from the equations yields a function of height in terms of distance. However, it is established that the height attained will never equal the arc length, with the maximum ratio occurring when the projectile is fired straight up, where height is half the arc length. In all other scenarios, the height will be an even smaller fraction of the arc length. Thus, achieving equal height and arc length is not possible.
SPiZ
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How do I find out what angle to fire a projectile so that the height it attains is equiv to the length of its arc? Whats a general formula? Assume the projectile is "fired" from ground level. Say, from a pea shooter or a sling shot.
 
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The projectile will travel in a parabola.

You use the eqns of motion to give eqns for movement in the x- and y-directions.
Eliminate t (time) from the two eqns to leave an eqn with y in terms of x, i.e. y=f(x) - which will be a parabola.

For the length of the curve look here.
 
Where would sin theta = cos theta? Wouldn't that give me the answer?
 
Wait a minute. I've just realized what you're asking for.
It's never going to happen

By "length of arc", you did mean the length of it's path, S, yes ?

If you look at the attachment, The height attained, h, will never be equal to S.
The nearest it comes is when the projectile is fired straight up vertically, in which case you wiil get h = (1/2)S.
In all other cases h will be an even smaller fraction.

Did you copy down the question correctly ?

Where is this question from ?
 

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