Bernoulli equation and velocity problem

AI Thread Summary
The discussion centers on calculating the pressure energy term in the Bernoulli equation, emphasizing that pressure is expressed in N/m² (Pascals) and is integral to energy calculations. To derive pressure energy, one must multiply pressure by volume, converting it into joules, as energy is defined per unit volume. The standard form of Bernoulli's equation includes a pressure term rather than a separate pressure energy term, and the kinetic energy is calculated using mass and velocity. An example illustrates that 1 m³ of gas at 100 kPa equates to 100 kilojoules of potential pressure energy. Understanding these conversions is crucial for applying the Bernoulli equation effectively.
malikengg
Messages
2
Reaction score
0
In the Bernoulli equation, i know that velocity is in m/s and mass in N which gives energy in joules. Likewise potential energy id also in joules being mgh. In pressure energy what are the variants? i.e what is formula for calcualting the pressure energy term in the equation? If we compute everything in joules, then how the pressure energy would be calculated? i want to know formula for calculating the pressure energy term in the equation.
 
Physics news on Phys.org
malikengg said:
In the Bernoulli equation, i know that velocity is in m/s and mass in N which gives energy in joules. ...
The terms in Bernoulli's equation are stated as energy per unit volume. (Note that density is mass per unit volume). To convert these terms to energy terms, you need to multply by some amount of volume.
 
yeah, okay..but i wanted to know how to calculate the pressure energy term in the equation. e.g to calculate the kinetic energy, we used mass and velocity (m*v^2/2). Likewise how the pressure energy would be calculated. If we are given an initial value of pressure, say 100kPa (N/m^2), in some problem, what value to substitute in the equation?
 
malikengg said:
yeah, okay..but i wanted to know how to calculate the pressure energy term in the equation. e.g to calculate the kinetic energy, we used mass and velocity (m*v^2/2). Likewise how the pressure energy would be calculated. If we are given an initial value of pressure, say 100kPa (N/m^2), in some problem, what value to substitute in the equation?
The standard form of Bernoulli's equation includes a pressure term, not a pressure energy term. The velocity term is 1/2 density velocity2 (density as opposed to mass). You need to multiply the terms by some amount of volume to get energies.

So if there was 1 meter3 of gas at 1 Pa, then the potential pressure energy would be 1 (N/m2) (m3) = 1 N m = 1 joule. If there was 1 meter3 at 100 kPa, the potential pressure energy would be 100 kilo-joules.
 
malikengg said:
yeah, okay..but i wanted to know how to calculate the pressure energy term in the equation. e.g to calculate the kinetic energy, we used mass and velocity (m*v^2/2). Likewise how the pressure energy would be calculated. If we are given an initial value of pressure, say 100kPa (N/m^2), in some problem, what value to substitute in the equation?
Welcome to Physics Forums.

People seem to be missing what you are asking. If you are using kg, m, and s units, then use units of N/m^2 for pressure -- which is equivalent to 1 Pa.
 

Thread 'Average velocity as a weighted mean'

Hello everyone, Consider the problem in which a car is told to travel at 30 km/h for L kilometers and then at 60 km/h for another L kilometers. Next, you are asked to determine the average speed. My question is: although we know that the average speed in this case is the harmonic mean of the two speeds, is it also possible to state that the average speed over this 2L-kilometer stretch can be obtained as a weighted average of the two speeds? Best regards, DaTario
View full post »

Thread '1:1 versus 2:1 Mechanical Advantage debate'

The rope is tied into the person (the load of 200 pounds) and the rope goes up from the person to a fixed pulley and back down to his hands. He hauls the rope to suspend himself in the air. What is the mechanical advantage of the system? The person will indeed only have to lift half of his body weight (roughly 100 pounds) because he now lessened the load by that same amount. This APPEARS to be a 2:1 because he can hold himself with half the force, but my question is: is that mechanical...
View full post »

Thread 'Newton's first law?'

Some physics textbook writer told me that Newton's first law applies only on bodies that feel no interactions at all. He said that if a body is on rest or moves in constant velocity, there is no external force acting on it. But I have heard another form of the law that says the net force acting on a body must be zero. This means there is interactions involved after all. So which one is correct?
View full post »

Similar threads

Bernoulli's Equation and water rockets
Replies
12
Views
3K
Bernoulli’s equation for a rotating fluid
Replies
4
Views
3K
Bernoulli to explain Magnus Effect
Replies
2
Views
3K
Does Fluid Dynamics Explain Pressure Gradients in a Frictionless Tube?
Replies
48
Views
5K
Flow of air through an open tube with a balloon
Replies
9
Views
4K
Bernoulli's Princple vs Flow Equation (deltaP=QR)
Replies
5
Views
5K
Contradicting values of pressure for liquid cross-sections
Replies
17
Views
2K
A The effect of perpendicular wind at channel inlet
Replies
12
Views
1K
Clarifying the Definition Total/Stagnation Pressure (p₀) in Bernoulli'
Replies
2
Views
897
Continuity and Bernoulli's equation in air
Replies
1
Views
2K

Hot Threads

Recent Insights

Back
Top