6) Shear stresses in a hydrostatic domain are always equal to zero. 7) In a hydrostatic domain, imagine two different fluids, one with higher viscosity and thẹ other one is with lower viscosity. The...


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6) Shear stresses in a hydrostatic domain are always equal to zero.<br>7) In a hydrostatic domain, imagine two different fluids, one with higher viscosity and thẹ other one is with lower viscosity. The specific<br>weight of these fluids is the same. When these two fluids (with the same volumé) placed into the identical tanks in terms'of size, the<br>fluid with higher viscosity create higher pressure at the bottom of the tank.<br>8) The difference between absolute pressure and relative pressure is equal to atmospheric pressure.<br>9) According to Pascal's law, the pressure is the same in all points of water-filled vessels.<br>10) There is a linear relationship between pressure and depth in a hydrostatic environment for Bingham fluid (non-Newtonian Fluid).<br>

Extracted text: 6) Shear stresses in a hydrostatic domain are always equal to zero. 7) In a hydrostatic domain, imagine two different fluids, one with higher viscosity and thẹ other one is with lower viscosity. The specific weight of these fluids is the same. When these two fluids (with the same volumé) placed into the identical tanks in terms'of size, the fluid with higher viscosity create higher pressure at the bottom of the tank. 8) The difference between absolute pressure and relative pressure is equal to atmospheric pressure. 9) According to Pascal's law, the pressure is the same in all points of water-filled vessels. 10) There is a linear relationship between pressure and depth in a hydrostatic environment for Bingham fluid (non-Newtonian Fluid).

Jun 11, 2022
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