Quizzes & Puzzles2 mins ago
Bernoulli's Equation
What does Bernoulli's equation actually show, I mean what would be the purpose of applying it to a flow, what information would that give you??
In the context of shaped charge jets!!
Thanks!
In the context of shaped charge jets!!
Thanks!
Answers
1 to 2 of 2
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For Chrissakes, is this a joke ?
Take Euler's momentum equation (that kinda says something about the conservation of momentum) and integrate it (I think you have to do along a path)
then you get Bernouilli's eqn
P + 1/2 p v2 + pgh = const, under an amazing variety of conditions (I think in a variable flow it can even be a f(t) )
What does it show? all sorts of things, each term can looked on as an energy term
and so it can be looked on as a statement of conservation of energy
do you mean jet of water or jet engine?
Spurt of water? apply the equation to the surface of the spurt because P will be const (and atmospheric)
and combine with A1v1+ A2V2 (Fluid eqn) for any cross section A1 , A2 and any velocity v1 and v2
and with I Cs (inital conditions) you shouldbe able to solve for all points along the flow.
I havent done this for twenty years but as you can see, I clearly found it interesting when I did.
Take Euler's momentum equation (that kinda says something about the conservation of momentum) and integrate it (I think you have to do along a path)
then you get Bernouilli's eqn
P + 1/2 p v2 + pgh = const, under an amazing variety of conditions (I think in a variable flow it can even be a f(t) )
What does it show? all sorts of things, each term can looked on as an energy term
and so it can be looked on as a statement of conservation of energy
do you mean jet of water or jet engine?
Spurt of water? apply the equation to the surface of the spurt because P will be const (and atmospheric)
and combine with A1v1+ A2V2 (Fluid eqn) for any cross section A1 , A2 and any velocity v1 and v2
and with I Cs (inital conditions) you shouldbe able to solve for all points along the flow.
I havent done this for twenty years but as you can see, I clearly found it interesting when I did.
1 to 2 of 2
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