Calculating Initial Speed from 2D Kinematics Problem

AI Thread Summary
To calculate the initial speed of a stone thrown horizontally from a height of 6.02m that lands 13.90m away, the time of flight was first determined using the vertical motion equation, yielding t = 1.23s. The horizontal distance was then used to find the initial speed, leading to an incorrect result of 11.3 m/s. A suggestion was made to double-check the calculations, particularly the need to take the square root when solving for time. The importance of careful calculation in kinematics problems was emphasized. Accurate calculations are crucial for determining the correct initial speed in projectile motion scenarios.
brushman
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Homework Statement


A stone thrown horizontally from a height of 6.02m hits the ground at a distance of 13.90m. Calculate the initial speed of the stone. Neglect air resistance.


Homework Equations


1. v = v0 + at
2. x = x0 + (1/2)(v0+v)t
3. x = x0 + v0t + (1/2)at^2
4. v^2 = v0^2 + 2a(x-x0)


The Attempt at a Solution


First I solved for t using the y components of equation 3. So
0 = x0y + (1/2)at^2;
a = -g;
x0y = 6.02;

so t = 1.23s

Then using x components of equation 2 I said
v0x = vx;
13.9 = v(1.23);
so v = 11.3 m/s

but that's not the right answer.

Sorry this isn't more clear, I'm in a hurry. Thanks.
 
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brushman said:
First I solved for t using the y components of equation 3. So
0 = x0y + (1/2)at^2;
a = -g;
x0y = 6.02;

so t = 1.23s
I don't think this part is right. Double check your calculations. (And don't forget to take the square root before arriving at your final value for t. :wink:)
 
omg, I swear I went over this problem 100 times and didn't catch that. Thanks.
 

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