![]() Example: Printer ink, gypsum paste etc.Q. Rheopectic: M aterials whose viscosity increases when sheared at a constant rate over time.A fluid, whose viscosity changes with the rate of deformation or shear stain is known as ![]() ![]() Thixotropic: M aterials whose viscosity decreases when sheared at a constant rate over time.Example: Suspension of corn starch in water and candy compounds etc. This type of behavior is sometimes called shear-thickening. The cell membrane is also known as: Phospholipids bi-layer Plasma membrane Fluid mosaic membrane. Dilatant: M aterials whose viscosity increases as the shear rate increases. Phospholipid fluid sea in embedded with a wide variety of protein molecules.Example: Cake batter, agar-agar and fruit juice concentrates, nail polish etc. Access free live classes and tests on the app. This type of flow behavior is sometimes called shear thinning. The fluid mosaic model describes the plasma membranes structure as a mosaic of components. Pseudoplastic: Materials whose viscosity decreases as the shear rate increases.Non-Newtonian fluids can be categorized into four types based on the way a fluid’s viscosity changes in response to variations in shear rate. Non-Newtonian fluids do not follow Newton’s law thus, their viscosity (ratio of shear stress to shear rat e) is not constant and is dependent on the shear rate. The viscosity is independent of the shear rate. Newtonian fluids obey Newton’s law of viscosity. The ratio of shear stress to shear rate is a constant, for a given temperature and pressure, and is defined as the viscosity or coefficient of viscosity. Newton’s law of viscosity defines the relationship between the shear stress and shear rate of a fluid subjected to a mechanical stress. Attempt All sub parts from each question.Newtonian and non-Newtonian fluid: Viscosity is the physical property that characterizes the flow resistance of simple fluids.
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