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Adebesin Sodiq Ayobami
https://www.simiode.org/members/4107
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1-057-S-FiguringFluidFlow
15 Aug 2017 | | Contributor(s):: Brian Winkel
We propose three differential equations models for the height of a column of falling water as the water exits a small bore hole at the bottom of the cylinder and ask students to determine which model is the best of the three.
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1-074-S-BottleWaterFlow
17 Apr 2017 | | Contributor(s):: Brian Winkel
We offer an experiment in which data is collected to ascertain a parameter in the differential equation formulation of Torricelli's Law for water flow from a container.
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1-073-S-WaterExitBottle
17 Apr 2017 | | Contributor(s):: Brian Winkel
We offer an experiment in which data is collected to ascertain a parameter in the differential equation formulation of Torricelli's Law for water flow out of a cylindrical container.
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1-014-S-DrainingContainers
17 Mar 2017 | | Contributor(s):: Brian Winkel
We examine the question, ``Given two rectangular circular cylinders of water with the same volume, but different radii, with a small bore hole of same radius on the center of the bottom through which water exits the cylinder, which empties faster?''
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1-058-S-WaterClocks
26 Nov 2016 | | Contributor(s):: Sania Qureshi, Brian Winkel
We apply Torricelli's Law to the task of building a water clock in which the height of the water in a container falls at a constant rate when the container has a hole in the bottom to let the water flow out. First, we review the principles and derivation of the applicable physics in...
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1-059-S-ContainerShapeFallingWater
22 Nov 2016 | | Contributor(s):: Brian Winkel
We examine many different physical situations to determine the time it takes a fixed volume of water to flow out of different shape containers through the same size exit hole at the bottom of the container.
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1-090-S-EmptySphericalTank
12 Nov 2016 | | Contributor(s):: Brian Winkel
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1-051-S-OneTankSaltModel
23 Jul 2016 | | Contributor(s):: Brian Winkel
We offer students a chance to model a one compartment salt mixing model.
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1-015-S-Torricelli
03 Jun 2015 | | Contributor(s):: Brian Winkel
We model the height of a falling column of water in a right circular cylinder (radius = 4.17 cm) emptying through a small hole on the side of the cylinder. Indeed, in all the videos below where are referred to in this Modeling Scenario the cylinder is a 2 liter soda pop...