Cannon projectile motion problem

AI Thread Summary
A daredevil is launched from a cannon at a 24.0° angle with an initial speed of 26.0 m/s, and the goal is to determine the height of a net positioned 50.0 m away horizontally. The horizontal and vertical components of the initial velocity are calculated as Vx = 23.75 m/s and Vy = 10.575 m/s. The time taken to reach the net is found to be approximately 2.105 seconds. Using the projectile motion equations, the vertical position of the daredevil when he reaches the net is calculated to be about 0.55 meters above the cannon. The discussion emphasizes the independence of horizontal and vertical motions in projectile motion problems.
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A daredevil is shot out of a cannon at 24.0° to the horizontal with an initial speed of 26.0 m/s. A net is positioned a horizontal distance of 50.0 m from the cannon. At what height above the cannon should the net be placed in order to catch the daredevil?

Ok, here's how the teacher explained it.

Vx = Vcos(theta)
Vy=Vsin(theta)

t = (horizontal distance) / Vx

and finally y = VyT + .5gt^2

------------
So, here's the work.

Vx = 23.75
Vy = 10.575

t = 2.105

y = (10.575)(2.105) + .5(-9.8)(2.105)^2

= .54797 m

Help me
 
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Basically this is a projectile motion problem.

In a projectile motion, the motion is split up into 2 parts - Horizontal and vertical. That's what you teacher has done here (Vcos(theta) and Vsin(Theta)).

You got to remember that the two motions are independent of each other,
so we can apply equations of motion to both.

What we have to do in this problem is :
When the dare devil has traveled 50 m horizontally, we need to find his vertical position. This is where the net is to placed, right?

So, That's all!
 
Yeah, I understand that the two motions are independent of each other. I just don't see how to relate them so I can get the correct answer. Can someone show me where I went wrong?

Thanks
 
Okay first you got that the Vi is 26 m/s, correct?
so we need to divide that into 2 components, vertical, horizontal.
so

---------/
--------/-| Vertical Vi, referred to as Vy sin 24*=26(hypo)/Vy
-------/--|
------/___|
-----24*---Horizontal Vi, referred to as Vx cos 24*=26(hypo)/Vx

so we got

H-|a=0---|Vix=23.75-|x=50
---------------------------------------
V-|a=-9.8|Viy=10.575|x=?

we have three things on the horizontal so we find time with x=Vit + (1/2)at^2

a=0 so we are left with 50(distance)=23.75(Vix)t
t=2.105 s

now we have 3 things on the bottom so we can solve for x with the same equation

x=10.575(2.105) - (1/2)(9.8)(2.105)^2
so we get x=.55
 
x=10.575(2.105) - (1/2)(9.8)(2.105)^2

Doesn't, acceleration due to gravity opposes the motion?

Edit: n/m, you just moved the negative sign.
 
Last edited:
hmm i might have confused him, thanks for clarifying that. :smile:
 

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