Compare the equation of the forced vortex to the Bernoulli equation in terms of:
Assumptions
Flow characteristics and streamlines
External pressure forces
Derivation
Compare the equation of the forced vortex to the Bernoulli equation in terms of: Assumptions Flow...
Bernoulli equation. The Bernoulli equation is a special case of conservation of linear momentum law of conservation of energy) for steady frictionless flow. This equation can be arrived at in three different ways. The usual form of the Bernoulli equation is: 1. pv2 + P + ?9z-constant a) For frictionless flow at steady state, Euler's equation of conservation of linear momentum reduces to: Starting from this equation, derive the Bernoulli equation. Assume irrotational flow. Derive the Bernoulli equation using the...
'THE BERNOULLI EQUATION CAN BE DERIVED BY PERFORMING A FORCE BALANCE UPON AN ELEMENTAL 'STREAMTUBE' IN FLOW AND, WHEN APPLIED FROM POINT 1 TO POINT 2 ON A STREAMLINE CAN BE WRITTEN AS P1+1/2 U1^2 TIMES DENSITY +DENSITY x gxZ1=..........., state 4 fundamental assumptions about the flow that are employed in the derivation of bernoulli equation 8 marks
1. Use the continuity equation and bernoulli equation
to calculate the flow speed and the pressure in the construction in
the pipe as well as the speed and pressure in the wide section of
pipe.
2. Calculate percent difference value for your
calculated values and the measured values.
Pitaprint pgy, =Pa + dph + poya Air = Aava (Right Wide side) Theft (narrow side ra Speed 0,4mls Speed 6,3 mls Pressure 133.315 kPa Pressure 102.842 Kla Roler (long) 4.25 Roer...
QUESTION 1 (10 Marks) a) State two assumptions for the Bernoulli equation and explain why that assumptions been made. (2 marks) b) Analyze the venturi meter in Fig 1 for flow rate of the air jet coming out from the throat as shown. State all your assumptions in doing so. Assume the air density is 1.28 kg/m² [6 marks) c) If the water level is only 1 cm, how much would Vichange? Justify your answer. No calculation needed. [2 marks]...
In-class Activity #4b Name Fluid Mechanics I (4600:310:301, Summer 2030,6/25, Thursday) Application of the Bernoulli Equation along a Streamline 1. Bernoulli equation along a streamline: Assumptions involved in Bernoulli equation: 1 No viscous effects (no shear) 2. Steady flow 3. Incompressible (density is constant) 4. Along a streamline P+ + Pgz=constant along streamline 2. The Static Pressure (p), Dynamic pressure, Stagnation pressure, and Total Pressure: Dynamic pressure: 1 Pd= 20v? Stagnation pressure: Ps= ptzov? Total pressure: P/ + Example 3.8...
could you please help me with answering all parts of this question.
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[7] A3. (a) Draw the streamlines and vortex lines of a Rankine vortex. Indicate which field lines are streamlines and which field lines are vortex lines, and label the vortex core. Explain which region of the flow has zero vorticity, and which region of the flow has non-zero vorticity. (b) A fluid with constant density po, pressure p, and velocity v, satisfies the...
Which one of the following is not an assumption of Bernoulli equation? -The flow is steady -No elevation change -The flow is incompressible -There is no friction -There is no shaft work
The Bernoulli equation is valid for inviscid flow. What term(s) in the energy balance are assumed to be zero?
How to use Bernoulli equation to derive air mass flow?
Please give me a more detailed process, thank you very much
example:
tange * HTC2C155 2 pipe wall jave t r easure flow speed - decreases Tut de pressure or limites flow rate n orifice plate Few @EVA , van fit fege. Att 1 Pi-p= 2 I (Vok mys & A V2 = A prop (volume flow rate). ੨ Pvr ( 4 ) (-ਨਾ ਆ oh=fgh Water
Derive the Bernoulli equation, and derive the equations for reading the Volume flow rate (Q) using the following. - orifice - venturi - pitot - coriolis