What is the location of the second and third water drops in a falling shower?

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The discussion focuses on determining the locations of the second and third water drops from a shower as the first drop hits the floor. The initial calculation for the time it takes for a drop to reach the floor is established using the equation of motion, yielding approximately 0.202 seconds. The participants debate the correct number of intervals to use for calculating the positions of the drops, ultimately agreeing that there should be three intervals since the fourth drop begins to fall as the first hits the ground. A suggestion is made to visualize the scenario with a diagram to clarify the positions of the drops. The conversation concludes with participants confirming the correct approach to solving the problem.
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Water drips from the nozzle of a shower onto the floor 200cm below. The drops fall at regular equal intervals of time, the first drop striking the floor at the instant the fourth begins to fall. Find the locations of the second and third drops when the first strikes the floor.

First I found the total time it takes for 1 drop to hit the bottom of the floor with equation (1): y-y_0=v_0t-\frac 1 2 gt^2

\Delta y =-200cm
v_0=0m/s

Solved for t: t=\sqrt \frac{-2y}{g}=\sqrt \frac{-2 \times -0.200m}{9.81 m/s}}\approx .202s

From there, I split the time into 4 equal intervals, and used those times I got and plugged it back into equation (1). But this method isn't correct, so I'm not sure where to go from here.
 
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From there, I split the time into 4 equal intervals
Why do you think it should be split into 4 intervals?
 
hage567 said:
Why do you think it should be split into 4 intervals?
Well the problem states "The drops fall at regular equal intervals of time" and so that's what I went by.
 
I think hage is suggesting, why 4 and maybe not ... another number of intervals? Think about the location of the droplets when the first hits the floor.
 
Maybe draw a diagram with the drops on it. The question states that when the first one hits the ground, the fourth is just about to start falling. So if there are two other drops in mid-air, how many intervals does that make?
 
There would be 3 intervals.

1st droplet from the ground to the 2nd (1)
2nd droplet to the 3rd, also in motion (2)
3rd droplet from the 4th about to fall (3)

Works :-] Thanks hage and t!m.
 
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