How Does a Cowboy Time His Jump to Land on a Galloping Horse?

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A cowboy aims to drop from a tree limb onto a galloping horse moving at 10 m/s, with a vertical distance of 3.0 m to the saddle. The discussion focuses on calculating the horizontal distance needed for a successful landing and the time the cowboy spends in the air. The correct approach involves treating vertical and horizontal motions independently, using the equation for vertical motion to find the time of fall. The initial vertical velocity is zero, leading to a calculated time of approximately 0.78 seconds for the fall. This time in the air is crucial for timing the jump accurately to land on the horse.
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3. A daring cowboy sitting on a tree limb wishes to drop vertically onto a horse galloping under the tree. The speed of the horse is 10. m/s, and the distance from the limb to the saddle is 3.0 m.
a. What must be the horizontal distance between the saddle and the limb when the cowboy makes his move?
b. How long is the cowboy in the air?


Okay, well I am really having troubles with this problem, I am not really sure where to start or what equations would be appropriate.



Here is my attempt:
I tried to find the time it takes to fall the 3.0m first, it didn't work too well.
d=.5at^2+Vit
3.0m= (-4.9m/s^2)t^2+(10m/s)t
now I am just confused, I don't even think I started the problem well. how do I solve for the t? Ahhh, please help!
 
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soccergirl14 said:
Here is my attempt:
I tried to find the time it takes to fall the 3.0m first, it didn't work too well.
d=.5at^2+Vit
3.0m= (-4.9m/s^2)t^2+(10m/s)t
When trying to figure out the time it takes for the cowboy to fall, the speed of the horse is irrelevant. And when you are computing the time it takes to fall a given distance, Vi is the initial vertical speed (of the cowboy). What's his initial speed?

(Also, since "down" is negative, the final position is -3.0 m.)
 
Welcome to PF.
Don't worry, you are falling in a common trap :)
The trick to this kind of problems is, that you treat the vertical and the horizontal motions independently.
d = 0.5 a t^2 + Vi t
is a correct formula, but you are mixing things up after that.
What is the initial vertical velocity of the cowboy?
 
Okay, that makes a lot of sense, thank you!

Just another quick question, for time I got .78s, would that be the answer for B aswell? Since the cowboy is dropping 3.0m from the tree and that takes .78s, is that the time he is in the air?
 
soccergirl14 said:
Okay, that makes a lot of sense, thank you!

Just another quick question, for time I got .78s, would that be the answer for B aswell? Since the cowboy is dropping 3.0m from the tree and that takes .78s, is that the time he is in the air?

That's the idea.
If not, he missed the saddle :-p
 
haha, alright :)
thank you so much!
 

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