Experiment: Balloons & Pressure | Horizontal Displacement

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The experiment investigates the relationship between the size of a hole in a cork and the horizontal displacement of water from a balloon. It finds that horizontal displacement increases with the diameter of the hole, as smaller holes result in less displacement. This phenomenon is explained by Bernoulli's principle, where pressure and flow rate are interconnected; restricting flow increases back pressure and enhances the water's throw. The discussion also notes that the weight of the water and the balloon's elasticity complicate the results, but the total surface area of the balloon is crucial. Ultimately, the setup's geometry significantly influences the outcomes of the experiment.
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I did this experiment for school.
A balloon is filled with water, and then a cork with a drilled hole is plugged into the end. I'm trying to find the relationship between horizonatal displacement and the size of a hole in a cork. Manipulated variable is the size of the hole in the cork. Responding variable is the water's horizontal displacement. It turns out that horizontal displacement is directly related to the diameter of the hole. In other words, the smaller the hole, the less the displacement. Why does this happen? For example if you take a hose and cover a part of it, the water will go further.
Thanks a lot everyone!
 
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The displacement (velocity actually) is related to pressure via Bernouli's principle. Pressure is determined by many factors, but in a hose, the pressure is limited by the flowrate. To have a higher flowrate you need less resistance at the nozzle, making for lower backpressure. By putting your thumb over the nozzle, you restrict the flow, increasing the back pressure, and increasing the throw of the water stream.

A water balloon is more difficult because the weight of the water has as much effect on the pressure as the elasticity of the balloon itself. So it depends a lot on the geometry of the setup.
 
Well I found that the volume in the balloon does not matter, as long as the balloon's total surface area is greater than its initial surface area. I supported the big ball of water with one hand, with the other I held the spout. Initially, water was coming out parallel to the ground.
 

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