What is the speed of a falling box?

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A box sliding horizontally at 2 m/s falls 0.5 m to the ground, raising the question of its speed just before impact. The vertical velocity component is calculated as sqrt(10) m/s. To find the overall speed, the discussion suggests using the kinematics equation for final velocity, leading to the conclusion that speed is a scalar representing the magnitude of the resultant vector. The final speed before hitting the ground is confirmed to be sqrt(14) m/s, with a recommendation to use 9.81 for more precision. The conversation emphasizes the importance of understanding both horizontal and vertical components in calculating the final speed.
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alright, i know this is really basic stuff, so please bear with me.

let's say i have a box or something that is sliding horizontally at 2m/s across a table. all of a sudden it falls 0.5m to the ground. what's the speed of the box right before it hits the floor?

okay, so it's pretty easy to see that 0.5m will result in a vertical velocity component of sqrt(10) m/s. my question is, to get the speed, do i just add them up in quadrature? i.e.,

speed = sqrt(2^2 + sqrt(10)^2) = sqrt(14)?
 
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umm I don't think so. I think all you need is the kinematics equation
(final velocity)^2 = (initial velocity^2 + 2(acceleration)(distance)

the distance is 0.5, acceleration due to gravity is 9.8 and the inital velocity is 0 m/s because the box slides off the table with 2 m/s horizontal velocity but no vertical velocity

so (final velocity) = sqrt ( 2 x 9.8 x 0.5)

does that make sense?
 
i thought speed was a scalar. doesn't that mean it's the magnitude of the resultant vector of the two components?
 
I think you are right, syang9. NeedLottaHelp didn't realize you already had the vertical part done. Maybe use 9.81 instead of 10, though.
 
so the answer is sqrt(14)?
 
Yes, if g = 10 in your part of the world.
 

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