Projectile Motion Horizontal Displacement Equation

AI Thread Summary
A fire hose shoots water at 7.5 m/s, and the goal is to determine the angle(s) for the water to land 3.0 m away. The derived equation for horizontal displacement is confirmed as x = (2(vi)²sin²[theta])/19.6. The discussion highlights that there are two angles that yield the same horizontal distance due to the properties of the sine function. A mathematical explanation for the two angles is that both values of theta produce the same sine value. The conversation emphasizes the importance of unit consistency in the derived equations.
ArbazAlam
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Homework Statement

A fire hose held near the ground shoots water at a speed of 7.5 m/s. At what angle(s) should the nozzle point in order that the water would land 3.0 m away?

The attempt at a solution

I remember from engineering there was a single equation you could use to find the horizontal displacement of an object given its initial velocity and projected velocity. I tried deriving it and came up with this:

x = (2(vi)2sin2[theta])/19.6

Could somebody please confirm this?

It also asks: Why are there two different angles? I know how to describe this logically, but my teacher usually prefers a more mathematical answer. Would I just say that there are two values for theta that yield the same sine value?
 
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ArbazAlam said:
I remember from engineering there was a single equation you could use to find the horizontal displacement of an object given its initial velocity and projected velocity. I tried deriving it and came up with this:

x = (2(vi)2sin2[theta])/19.6

Could somebody please confirm this?

Hi ArbazAlam! :smile:

(have a theta: θ)

Yes, that's right. :smile:

(though why didn't you just say x = (vi)2sin2θ/9.8 ? :wink:)

It also asks: Why are there two different angles? I know how to describe this logically, but my teacher usually prefers a more mathematical answer. Would I just say that there are two values for theta that yield the same sine value?

Yup … that would do … you could even say how the two values are related! :wink:
 
Thank you! I didn't even notice those units canceled out. And thank you for the theta.
 

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