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Stones hitting Birds :D (1 Viewer)

Smilebuffalo

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A stone is thrown so that it will hit a bird at the top of a pole. However, at the instant the stone is thrown, the bird flies away in a horizontal straight line at a speed of 10ms^-1. The stone reaches a height double that of the pole and, in its descent, touches the bird. Find the horizontal component of the velocity of the stone.



:bomb:
 

kwabon

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i have a way to do that question, but it has a whole heap of algebra in it.
sooo unfortunately i cbf typing it up,

so lets just wait for an easier way :)

i will type it up, if no one answers this question by the end of tomorrow, which is most unlikely.
 

Drongoski

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A stone is thrown so that it will hit a bird at the top of a pole. However, at the instant the stone is thrown, the bird flies away in a horizontal straight line at a speed of 10ms^-1. The stone reaches a height double that of the pole and, in its descent, touches the bird. Find the horizontal component of the velocity of the stone.



:bomb:
is answer: 5(1 + sqrt(2) ) m/s ??
 

azureus88

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Alternatively,

Consider [maths]y=-kx^2[/maths] for [maths]-2h\leq y\leq 0[/maths]

when [maths]y=-h,x=\pm \sqrt{\frac{h}{k}}[/maths]

when [maths]y=-2h,x=\pm \sqrt{\frac{2h}{k}}[/maths]

D1 (distance travelled by stone) [maths]=\sqrt{\frac{2h}{k}}+\sqrt{\frac{h}{k}}[/maths]

D2 (distance travelled by bird) [maths]=2\sqrt{\frac{h}{k}}[/maths]

[maths]\frac{D_1}{V}=\frac{D_2}{10}\\V=10\frac{D_1}{D_2}\\=10\left [ \frac{\sqrt{\frac{h}{k}}(\sqrt{2}+1)}{2\sqrt{\frac{h}{k}}} \right ]\\=5(\sqrt{2}+1)\\=12.1[/maths]
 

untouchablecuz

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Alternatively,

Consider [maths]y=-kx^2[/maths] for [maths]-2h\leq y\leq 0[/maths]

when [maths]y=-h,x=\pm \sqrt{\frac{h}{k}}[/maths]

when [maths]y=-2h,x=\pm \sqrt{\frac{2h}{k}}[/maths]

D1 (distance travelled by stone) [maths]=\sqrt{\frac{2h}{k}}+\sqrt{\frac{h}{k}}[/maths]

D2 (distance travelled by bird) [maths]=2\sqrt{\frac{h}{k}}[/maths]

[maths]\frac{D_1}{V}=\frac{D_2}{10}\\V=10\frac{D_1}{D_2}\\=10\left [ \frac{\sqrt{\frac{h}{k}}(\sqrt{2}+1)}{2\sqrt{\frac{h}{k}}} \right ]\\=5(\sqrt{2}+1)\\=12.1[/maths]
sexy (y)
 

lolokay

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Sounds oddly familiar.....
indeed it does..

my solution was this (however it's not really the projectile motion approach)
"
say the projectory of the stone is represented by y=-Cx2, so that the origin is the maximum point/height
if d is the distance the stone travels to get from a height of 2p (max) to p, then p = Cd2.
The distance, D, that the stone travels in going from 2p to the ground would then be rt2 d [2p = CD2 = 2Cd2 -> D = rt2 D] (same distance to get from ground to 2p)
So the total horizontal distance travelled by the stone is d + rt2 d, whereas the total distance travelled by the bird is 2d

They cover each of these distance in the same time, so you can then show that vstone/dstone = vbird/dbird

vstone = 10(rt2 + 1)/2 m/s
= 12.07m/s
"
 
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