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5.7.3: Bernoulli’s Equation
https://phys.libretexts.org/Courses/Joliet_Junior_College/JJC_-_PHYS_110/05%3A_Book-_Physics_(Boundless)/5.07%3A_Fluid_Dynamics_and_Its_Applications/5.7.03%3A_Bernoullis_Equation
For “ideal” flow along a streamline with no change in height, an increase in velocity results from a decrease in static pressure.
11.3: Bernoulli’s Equation
https://phys.libretexts.org/Courses/Prince_Georges_Community_College/PHY_1030%3A_General_Physics_I/11%3A_Fluid_Dynamics_and_Its_Applications/11.3%3A_Bernoulli%E2%80%99s_Equation
For “ideal” flow along a streamline with no change in height, an increase in velocity results from a decrease in static pressure.
14.7: Fluid Dynamics
https://phys.libretexts.org/Bookshelves/University_Physics/University_Physics_(OpenStax)/Book%3A_University_Physics_I_-_Mechanics_Sound_Oscillations_and_Waves_(OpenStax)/14%3A_Fluid_Mechanics/14.07%3A_Fluid_Dynamics
Flow rate Q is defined as the volume V flowing past a point in time t. The SI unit of flow rate is (m^3)/s, but other rates can be used, such as L/min. Flow rate and velocity are related by the produc...Flow rate Q is defined as the volume V flowing past a point in time t. The SI unit of flow rate is (m^3)/s, but other rates can be used, such as L/min. Flow rate and velocity are related by the product of the cross-sectional area of the flow by its average velocity. The equation of continuity states that for an incompressible fluid, the mass flowing into a pipe must equal the mass flowing out of the pipe.
17.7: Fluid Dynamics
https://phys.libretexts.org/Workbench/PH_245_Textbook_V2/17%3A_Fluid_Mechanics/17.07%3A_Fluid_Dynamics
Flow rate Q is defined as the volume V flowing past a point in time t. The SI unit of flow rate is (m^3)/s, but other rates can be used, such as L/min. Flow rate and velocity are related by the produc...Flow rate Q is defined as the volume V flowing past a point in time t. The SI unit of flow rate is (m^3)/s, but other rates can be used, such as L/min. Flow rate and velocity are related by the product of the cross-sectional area of the flow by its average velocity. The equation of continuity states that for an incompressible fluid, the mass flowing into a pipe must equal the mass flowing out of the pipe.
11.3: Bernoulli’s Equation
https://phys.libretexts.org/Bookshelves/University_Physics/Physics_(Boundless)/11%3A_Fluid_Dynamics_and_Its_Applications/11.3%3A_Bernoullis_Equation
For “ideal” flow along a streamline with no change in height, an increase in velocity results from a decrease in static pressure.

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