Mastodawn

How the Edenville Dam Failed

Back in May 2020, the Edenville Dam in Michigan failed dramatically, releasing flood waters that destroyed a downstream dam and caused millions of dollars of damage. In this Practical Engineering video, Grady deconstructs the accident, based on an interim report from the forensic team charged with investigating the failure. Along the way, he explains common causes of dam failures, what made the Edenville failure unusual, and how engineers build modern earthen dams to avoid this older design’s flaws. (Image and video credit: Practical Engineering)

#civilEngineering #damFailure #fluidDynamics #granularMaterial #hydrostaticPressure #physics #science #soilLiquefaction

Nicole Sharp Dec 31

The Hydrostatic Paradox

Engineering classes often discuss hydrostatics–the physics of non-moving water–before they cover fluid dynamics and its flows. But hydrostatics is plenty challenging on its own, as Steve Mould demonstrates in this video looking at how hydrostatic pressure depends on depth (and, not, as our intuition might suggest, on shape). As always, he has some nice countertop-scale demos to go with it. (Video and image credit: S. Mould)

#DIYFluids #fluidDynamics #hydrostaticPressure #hydrostatics #physics #science

mymedschool Nov 24

The #StarlingEquation explains fluid movement across capillaries, balancing #HydrostaticPressure & #OncoticPressure to regulate tissue #FluidExchange. Key for #Physiology, #MedicalEducation, and understanding #Edema formation.

https://mymedschool.org/portfolio/m04-03-011-starling-equation/?utm_source=mastodon&utm_medium=jetpack_social

Starling Equation – Capillary Fluid Exchange and Physiological Importance

Learn the Starling Equation (M04.03.011) and its role in capillary fluid exchange. Understand how hydrostatic and oncotic pressures drive movement of fluids between capillaries and interstitial spaces, and how this knowledge applies to edema and microcirculation.

mymedschool.org

NIOO-KNAW Feb 7, 2024

New NIOO publication: Hydrostatic pressure impedes the degradation of sinking copepod carcasses and fecal pellets.
#zooplankton #particulateorganiccarbon #hydrostaticpressure
https://doi.org/10.1093/plankt/fbae002

Hydrostatic pressure impedes the degradation of sinking copepod carcasses and fecal pellets

Abstract. Fast-sinking zooplankton carcasses and fecal pellets appear to contribute significantly to the vertical transport of particulate organic carbon (POC),

OUP Academic

michael Sep 29, 2022

How fish survive the extreme #hydrostaticPressure in the oceans https://www.eurekalert.org/news-releases/966078 aaaah reminds me of my high pressure PhD work back in the 90s #LifeOnTheEdge

How fish survive the extreme pressures of life in the oceans

Scientists have discovered how a chemical in the cells of marine organisms enables them to survive the high pressures found in the deep oceans.

EurekAlert!