Bernoulli's Equation - Help With Holt Physics Problem Workbook Page 104

  • Thread starter Twilit_Truth
  • Start date
In summary, a person is asking for help with a physics problem in the Holt Physics Problem Workbook. They apologize for not being able to provide more information and suggest using the Latex template to post the problem. They also mention that others may have already posted similar problems with the necessary symbols.
  • #1
Twilit_Truth
34
0
This isn't really a problem, but I need to understand what happened here. I was looking at an example and got confused by one of the steps. I can't figure out how to type it here, so all I can say is that it is on page 104 of the Holt Physics Problem Workbook, and it is going from just after it substitutes the continuality equation for v2 to the next step that confuses me. I am so sorry for the lack of information.


Thank you for your time.
 
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  • #2
If you can, try to use the Latex template, or just type it in words, otherwise you are banking on someone having the same text AND feeling like taking the time to look up the problem that you should have made the effort to post yourself. I doubt if you'll have any luck.

Casey
 
  • #3
How do you use the Latex template?
 
  • #4
Twilit_Truth said:
How do you use the Latex template?

When you are posting look at the toolbar above for the capital sigma symbol-->[itex]\Sigma[/itex] and then you just click around until you find what you are looking for.
You can also find other people's posts and if it contains the symbols you want, just click on them and a dialogue box will pop up with the code used to generate it.
 

Related to Bernoulli's Equation - Help With Holt Physics Problem Workbook Page 104

1. What is Bernoulli's Equation?

Bernoulli's Equation is a fundamental equation in fluid dynamics that describes the relationship between the pressure, velocity, and height of a fluid in motion.

2. How do you use Bernoulli's Equation?

Bernoulli's Equation can be used to calculate the pressure or velocity of a fluid at a certain point in a system, as long as the other variables are known. It is often used in the design of pipes, pumps, and other fluid systems.

3. What is the significance of Bernoulli's Equation?

Bernoulli's Equation is significant because it helps us understand the behavior of fluids in motion. It is used in many real-world applications, from airplane flight to plumbing systems.

4. What are the assumptions of Bernoulli's Equation?

Bernoulli's Equation assumes that the fluid is incompressible, the flow is steady, and there is no friction or viscous forces present.

5. Can Bernoulli's Equation be applied to all fluids?

No, Bernoulli's Equation can only be applied to ideal fluids, which are assumed to have no viscosity and be incompressible. Real fluids, such as gases, may have other factors that need to be taken into account.

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