How to do this projectile question (1 Viewer)

kooltrainer

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24) Find the speed and direction of a particle which, when projected from a point 15 m above the horizontal ground, just clears the top wall 26.25 m high and 30 m away.
 
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conics2008

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ok use your catersion formula to find V and theta... make sure you derive them dont just use them.. take g=-9.8

.. if you still cant.. i will post up answer.. thank you
 
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conics2008

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ok i post now.

im struggling to get v^2 out of the way ??
 
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kooltrainer

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yeh.. its pretty hard..
answer says velocity should be 25 m/s and angle shuld be about 37 degrees...
 

ronnknee

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conics2008 said:
ok use your catersion formula to find V and theta... make sure you derive them dont just use them.. take g=-9.8

.. if you still cant.. i will post up answer.. thank you
In Maths, you should take g = 10, otherwise stated
 

Affinity

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From the question we know that at some particular time T , y'(T) = 0, y(T) = 26.5 and x(T) = 30

1. show that [(y')^2 / 2] + gy is constant
2. from that we can deduce that y'(0) = sqrt(2*11.25*g) = sqrt(22.5g)
3. ofcourse y'(t) = y'(0) - gt, so in particular, 0=y'(T) = y'(0) - gT
so T = y'(0)/g = sqrt(22.5/g)
4. x(T) = x'(0)*T so x'(0) = 30/sqrt(22.5/g) = sqrt(900g/22.5)

5. so initial speed is about 24.6 (taking g = 9.8), initial angle is about 36.86 degrees

fixed the error sorry for the confusion :S
 
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Affinity

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ronnknee said:
In Maths, you should take g = 10, otherwise stated
In maths if you aren't given g then you write g as g.
 

minijumbuk

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I tried this question, but I didn't get the same answer as Affinity. Can someone please tell me where I went wrong?

Firstly, I minused the distance between top of the wall and where the projectile is shot. So, I got: Range = 30m, max height = 11.25m

Then, I did this:
ax=0
vx= V cosѲ
x= Vt cosѲ +C
When t=0, x=0, therefore C=0
x= Vt cosѲ
_____________________________
ay= -9.8
vy= -9.8t +C
t=0, vy= VsinѲ
Therefore vy = -9.8t +VsinѲ
y= -4.9t2+VtsinѲ + C
t=0, y=0, C=0
y= -4.9t2+VtsinѲ
________________________________

When vy=0, t=max
-9.8t + VsinѲ = 0
t= VsinѲ/9.8
When t =VsinѲ/9.8 , y=11.25
11.25 = -4.9(VsinѲ/9.8)2 + V2sin2Ѳ/9.8
= -5V2sin2Ѳ/98 + 10V2sin2Ѳ/98
= (5V2sin2Ѳ ) /98
V2sin2Ѳ = 220.5 --------1

When t= VsinѲ /9.8, x=30
30 = (V2sinѲ cosѲ ) /9.8
294 = V2sinѲcosѲ
294sinѲ = V2sin2ѲcosѲ
From 1,
294tanѲ = 220.5
tanѲ = 3/4
Ѳ=36 degrees and 52 minutes

V2sin2Ѳ = 220.5
V2 = 220.5 / sin2(36degrees52mins)
V = 24.75 m/s
 
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minijumbuk

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Wow, I got the same as 3unitz =\

How do I do it the cartesian way? I never learnt of such a method =\
So I have to derive stuff every single time xD
 

Affinity

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oh I made a mistake there.. 26.25 - 15 is 11.25 not 11.5 my bad..
Anyway, the main purpose of that post was to show that one can use the familiar idea of energy from physics.
 
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independantz

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minijumbuk said:
I tried this question, but I didn't get the same answer as Affinity. Can someone please tell me where I went wrong?

Firstly, I minused the distance between top of the wall and where the projectile is shot. So, I got: Range = 30m, max height = 11.25m

Then, I did this:
ax=0
vx= V cosѲ
x= Vt cosѲ +C
When t=0, x=0, therefore C=0
x= Vt cosѲ
_____________________________
ay= -9.8
vy= -9.8t +C
t=0, vy= VsinѲ
Therefore vy = -9.8t +VsinѲ
y= -4.9t2+VtsinѲ + C
t=0, y=0, C=0
y= -4.9t2+VtsinѲ
________________________________

When vy=0, t=max
-9.8t + VsinѲ = 0
t= VsinѲ/9.8
When t =VsinѲ/9.8 , y=11.25
11.25 = -4.9(VsinѲ/9.8)2 + V2sin2Ѳ/9.8
= -5V2sin2Ѳ/98 + 10V2sin2Ѳ/98
= (5V2sin2Ѳ ) /98
V2sin2Ѳ = 220.5 --------1

When t= VsinѲ /9.8, x=30
30 = (V2sinѲ cosѲ ) /9.8
294 = V2sinѲcosѲ
294sinѲ = V2sin2ѲcosѲ
From 1,
294tanѲ = 220.5
tanѲ = 3/4
Ѳ=36 degrees and 52 minutes

V2sin2Ѳ = 220.5
V2 = 220.5 / sin2(36degrees52mins)
V = 24.75 m/s
I don't know if i'm missing something here, but shouldn't the second be 2x the first one ( in bold) as the max height occurs at half the time of flight, thus when the range occurs you need to multiply it by 2?
 

minijumbuk

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No, because I found when vertical velocity is 0. It doesn't matter if it's half time or full time. As long as it's at vy=0, it is maximum.
 

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