- #1
So, what are his and your arguments?mido said:
That's your conclusions. But what are the presented reasons for either position?mido said:
I don't think you understand what's going onA.T. said:
If that was your only argument, no wonder your friend was unconvinced.mido said:
I don't think YOU understand what is going on. We don't spoonfeed here. We want you to lead us through the entire line of logic. Then we'll help with bumps back to the right path if it goes astray.mido said:
You keep asking irrelevant questions, all i wanted to know whos right and wrong, force is presssure x area, the larger the area the higher the force, do u want me to solve this question for u ?A.T. said:
Only for a flat surface. For arbitrary surfaces you have to integrate the pressure over the surface. See equation 2.17 here:mido said:
Not sure what you mean. But regarding your plug: The outer part of what you call "stem" has the same pressure from both sides, so the forces on it cancel, and thus reducing that outer part doesn't change the total force from the fluid on the plug. If the seal was at the circumference of the "stem", the force on it would depend on the size of the stem.mido said:
Okay, now I see the 1mm you mean. It doesn't matter if it's 1mm or 1m. If it has the same pressure as the opposite side, then the forces on the equal areas on each side are equal but opposite, so they cancel.mido said:
The formula for calculating force on a seal is force = mass x acceleration. This means that the force acting on a seal is directly proportional to its mass and the acceleration it experiences.
The mass of a seal can be determined by weighing it using a scale. Alternatively, you can calculate its volume using the formula for volume of a regular object (length x width x height), and then multiply it by the density of a seal to get its mass.
The acceleration of a seal can vary depending on its movement. For example, if a seal is swimming, its acceleration will be different from when it is resting on land. Generally, the average acceleration of a seal is around 0.5 meters per second squared.
Water has a density that is greater than air, so it exerts more force on an object. This means that a seal will experience more force when swimming in water compared to when it is on land.
Aside from mass and acceleration, there are other factors that can affect the force on a seal such as the speed of the water or air it is moving through, the shape and size of its body, and external forces like wind or currents.
