Projectile motion finding initial speed of a ball pushed off a table

AI Thread Summary
A ball projected horizontally from a 0.823 m high table lands 1.44 m away, requiring calculations to find its initial speed. The time of flight is determined using the formula for vertical motion, resulting in approximately 0.43 seconds. The initial horizontal speed is then calculated by dividing the horizontal distance by the time, yielding an initial speed of about 3.5 m/s. There was initial confusion regarding the horizontal acceleration, but clarifying that gravity only affects vertical motion resolved the issue. The discussion highlights the relationship between vertical and horizontal motion in projectile motion problems.
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A ball is projected horizontally from the edge
of a table that is 0.823 m high, and it strikes
the floor at a point 1.44 m from the base of
the table.
The acceleration of gravity is 9.8 m/s2 .
What is the initial speed of the ball? An-
swer in units of m/s.


the table is .823 m high.
x = xo + vot+ .5at^2
x = .823 , xo = 0, vot = 0 (vertical speed is 0), a = 9.8 m/s2 and you solve for t
.823 m = .5(9.8 m/s2)t^2
t^2 = .1679 s
t = .41 sec

to find the intial speed you know the distance and the time
x = xo +vot+.5at^2
1.44 m = 0 m + vo(.41 s) + .5(9.8 m/s2)(.41 s)^2
you get vo = 1.5 m/s

I tried this but I did something wrong because i enter my homework online and it told me the answer i got was incorrect.
 
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Gravity is directed downward, so why do you have the projectile accelerating horizontally in your calculation for v0?
 
Thanks! Your absolutely right that fixed it. I feel kinda dumb now. We just learned the verticle horizontal stuff so I'm still a bit confused and get flipped around. thanks again :)
 
use x=vicostheta t
anser is 3.5
 
First solve for time: t=sqrt of 2*height/g

t=sqrt of 2(.823)/9.8 = .43 secs. This is how long it takes to fall vertically, the horizontal and vertical are tied through time.

Given that the object travels 1.44m horizontally in .43 sec we can divide 1.44m by .43 secs to get 3.348 m/s or 3.5 m/s.

The Trig way works too! but if you don't have an angle use this method.
 
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