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Applications of Integrals: Hydrostatic Pressure and Force
In this video I go over further into applications of integrals and this time go into the field of physics and engineering by going over an introduction on Hydrostatic Pressure and Force. When you go swimming, you will notice that the deeper you go the more pressure or force you will feel acting on you. This is because the deeper you go, the more water is above you, thus adding its weight on top of you. From this weight we can define the force and pressure acting on you, either in SI units or U.S. Imperial units. Another important concept to understand about this hydrostatic pressure, is that the pressure is the same in any direction at any given point underwater. This is an experimentally proven fact and is very useful in hydro-engineering.
Another important note, which I forgot to mention in the video, is that the force due to water is called hydrostatic because the word "hydro" is identified with water, and the word "static" shows the force we are dealing with is when the water or other type of fluid is at a static or non-moving phase.
This is a very important introduction to a very large and important engineering field, so make sure to watch it! In later videos I will go over how to apply integrals and integration in solving for the hydrostatic force and pressure so stay tuned!
Download the notes in my video: https://onedrive.live.com/redir?resid=88862EF47BCAF6CD!104458&authkey=!ACrVe5vhzfG0S74&ithint=file%2cpdf
View Video Notes on Steemit: https://steemit.com/mathematics/@mes/applications-of-integrals-hydrostatic-pressure-and-force
Related Videos:
Applications of Integrals: Surface Area: https://youtu.be/JkDPmAD37qk
Applications of Integrals: Arc Length Function: https://youtu.be/MWKK3qLvSwU
Applications of Integrals: Arc Length Proof: https://youtu.be/2rb4H_rmgxg
Simplified Filter Criteria: A Dam Filter Example: http://youtu.be/yGEeYAb4Olw
Soil Mechanics 101 - Phase Relations: http://youtu.be/DtKheQcL2BU
Types of Tailings Embankments: Upstream, Downstream and Centerline Construction Methods: http://youtu.be/1wm1XR6z-QE
Buoyancy - What is Archimedes' Principle and it's Proof: http://youtu.be/mXzccaH2KNI .
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