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The equation assumes steady state or laminar flow and hence cannot be used for turbulent flows.

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Can Bernoullis equation describe the flow of water that is cascading down a rock-strewn spillway Explain?

You cannot use Bernoulli's equation because the rocks would create a turbulent flow and you need a steady flow to use Bernoulli's equation. It could (in theory) but you would need accurate measurements of size shape and placement of each of the rocks involved. It would be a nightmare just to accumulate the data.


Why dp created for flow measurement?

The primary element creates a pressure drop across the flow meter by introducing a restriction in the pipe, and this engineered restriction enables Bernoulli's equation to be used for a flow rate calculation.


In the Bernoulli's theorem demonstration how can you improve the accuracy of the results?

we can improve the bernoulli equation by adding the head losses at the final flow state and also we account the major (friction loss and viscus loss) losses and Minor losses (pipe bend , pipe contraction , pipe inlet and outlet, pipe fittings , valves etc)... If we account those losses and added to the head losses then the Bernoulli's equation gives the very accurate value....


What is the equation for water flow in construction?

the velocity of water flow within a drainage pipe; the equation is V=L/t L= Length t=time. Then the flow rate; Fr=A*V, Where A= sectional area and V = velocity.


What principle of venturi meter?

the basic principle on which a Venturimeter works is that by reducing the cross-sectional area of the flow passage, a pressure difference is created and by measuring this pressure difference, discharge through the pipe can be determined. formula to find actual discharge is=amount of fluid collected/time taken it works on the principle of bernoulli"s equation

Related Questions

What are the applications and implications of the unsteady Bernoulli equation in fluid dynamics?

The unsteady Bernoulli equation in fluid dynamics is used to analyze the flow of fluids in situations where the flow is changing over time. This equation helps in understanding the relationship between pressure, velocity, and elevation in unsteady flow conditions. Applications of the unsteady Bernoulli equation include studying the dynamics of water waves, analyzing the behavior of fluids in moving machinery like pumps and turbines, and predicting the flow patterns in transient fluid systems. The implications of the unsteady Bernoulli equation are significant in various engineering fields, such as aerospace, civil, and mechanical engineering. Understanding and applying this equation can help in designing more efficient fluid systems, predicting pressure fluctuations in pipelines, and optimizing the performance of hydraulic systems.


Is Bernoulli equation applicable for both laminar and turbulent flow?

yes, as long as it is assumed the substance is incompressible.


How are the continuity equation and bernoulli's equation related?

Continuity equations describe the movement of constant. Bernoulli's equation also relates to movement, the flow of liquids. For some situations, where the liquid flowing is a constant, both a continuity equation and Bernoulli's equation can be applied.


How to use Bernoulli's equation to analyze fluid flow in a system?

To analyze fluid flow in a system using Bernoulli's equation, you need to consider the energy balance of the fluid. Bernoulli's equation relates the pressure, velocity, and height of a fluid at different points in the system. By applying this equation, you can determine how changes in these factors affect the flow of the fluid through the system.


Who presented Bernoulli's equation?

Daniel Bernoulli, a Swiss mathematician and physicist, formulated Bernoulli's equation in his book "Hydrodynamica" in 1738. The equation describes the conservation of energy in a fluid flow system and has applications in fluid dynamics and aerodynamics.


How is Bernoulli's equation applied in the analysis of compressible flow?

In the analysis of compressible flow, Bernoulli's equation is used to relate the pressure, velocity, and elevation of a fluid. This equation helps in understanding how the energy of a fluid changes as it moves through a compressible flow system, such as in a gas turbine or a rocket engine. By applying Bernoulli's equation, engineers can predict and analyze the behavior of compressible fluids in various engineering applications.


What are the Limitations of bernoulli's theorem?

It is based on the following assumptions; (1) Steady flow (2) Incompressible flow (3) Inviscid flow (zero viscosity) (4) Flow along a streamline If a studied flow does not match these parameters, Bernoulli's theory is not applicable. (James R)


When can you use the Bernoulli equation in fluid dynamics?

The Bernoulli equation can be used in fluid dynamics to analyze the flow of an incompressible fluid along a streamline, where the fluid is steady, inviscid, and subject only to conservative forces.


What is the application of the Bernoulli equation in compressible flow analysis?

The Bernoulli equation is used in compressible flow analysis to study the relationship between pressure, velocity, and elevation in a fluid flow system. It helps engineers and scientists understand how these factors change as a fluid moves through a system, such as in aircraft design or gas pipelines.


When should Bernoulli's equation be used in fluid dynamics?

Bernoulli's equation should be used in fluid dynamics when analyzing the flow of an incompressible, inviscid fluid along a streamline, where the fluid's density remains constant and friction is negligible.


How can I convert flow to pressure in a fluid system?

To convert flow to pressure in a fluid system, you can use the Bernoulli's equation, which relates the flow rate, pressure, and velocity of the fluid. By manipulating this equation, you can calculate the pressure based on the flow rate in the system.


What is the definition of steady and unsteady flow of fluid?

What is a continuous flow and unsteady flow