Calculating Water Pressure: A Puzzle to Solve

In summary, the pressure of water can be determined using the equation Force/Area, where the weight of the column of water is divided by the cross-sectional area of the tube. However, this only applies to straight and unobstructed columns of water. The pressure does not increase when going from a large tube to a small tube, as the weight of the water above is still supported by the bottom of the larger tube.
  • #1
Idea04
194
1
To determine the pressure of water, you would use Force/Area. With a column of water. For example a 4 inch diameter column of water with 24 pounds of water in it. Equation would be 24/12.56637061. Would equal 1.909 psi. But if at the bottom of the column there was a 1 inch diameter tube. Would you take 24 pounds and divide it by the area of 1 inch-(0.785398163 cubic inches) to get the pressure leaving the tube.
If that were true would the pressure be 30.55774909psi? It just doesn't seem right. Can someone help me with this?
 
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  • #2
It's not right. The static pressure exerted by a fluid depends on how deep you are below its surface, not on the total weight of all the fluid above you. (For example: A small bucket with a foot of water in it and an olympic size swimming pool with a foot of water in it both have the same water pressure acting on their bottom surfaces.) You can only use "weight of the column of fluid/Area" to find the pressure if the column of fluid is straight and unobstructed. Read this: http://hyperphysics.phy-astr.gsu.edu/hbase/pflu.html
 
  • #3
What I would like to know is that a column of water 7 feet tall, that is staight and unobstructed. Then there would be pressure from the weight of the water above you. But does the pressure increase when it goes from a large tube 4 inches to a small tube of 1 inch diameter. Because with the equation F/A for a large tube the weight is 77.9 pounds. But with a surface area of 12.5 cubic inches. And for the small tube of 77.9 pounds above it and .785 cubic inches. Remember that the large tube flows vertically to the small tube by gravitational force.
 
  • #4
Idea04 said:
But does the pressure increase when it goes from a large tube 4 inches to a small tube of 1 inch diameter.
Once again, the answer is no. The 1 inch diameter area supports only a 1 inch diameter column of water; the rest of the 7 foot tall column is supported by the bottom of the 4 inch diameter section of tube. (Please read the link I gave in my last post.)
 

What is water pressure?

Water pressure is the force that water exerts on the walls of a container or any surface it comes into contact with. It is typically measured in units of pounds per square inch (psi) or newtons per square meter (N/m^2).

How is water pressure calculated?

Water pressure is calculated by dividing the force of the water by the area it is pushing against. This can be represented by the equation P = F/A, where P is the pressure, F is the force, and A is the area.

What factors affect water pressure?

Water pressure can be affected by several factors, including the depth of the water, the density of the water, and the force of gravity. Additionally, the shape and size of the container or surface can also impact the water pressure.

Why is calculating water pressure important?

Calculating water pressure is important for a variety of reasons. It can help engineers and scientists design and build structures that can withstand the force of water, such as dams and pipes. It is also important for understanding the flow of water in a system and ensuring that water is distributed evenly and efficiently.

How can I use the puzzle "Calculating Water Pressure: A Puzzle to Solve" to learn about water pressure?

The puzzle "Calculating Water Pressure: A Puzzle to Solve" is a fun and interactive way to learn about water pressure. It allows you to manipulate different variables, such as the force and area, and see how they affect the water pressure. By solving the puzzle, you can gain a better understanding of the concept and how it is calculated.

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