Help with pressure differences-sponge and wood

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SUMMARY

This discussion focuses on the discrepancies in pressure readings when using a pressure transducer on hard versus soft surfaces, specifically a sponge. The key conclusion is that the compliance of the sponge requires the user to exert more distance to achieve the same reaction force, leading to lower pressure readings despite equal force application. Newton's third law is referenced to explain that equal force should yield equivalent pressure readings, but the deformation of the sponge affects the measurement. Proper understanding of the transducer type—pressure versus force—is crucial for accurate readings.

PREREQUISITES
  • Understanding of Newton's Third Law of Motion
  • Knowledge of pressure transducers and their operation
  • Familiarity with material compliance and elasticity
  • Basic principles of force and pressure calculations
NEXT STEPS
  • Research the differences between pressure transducers and force transducers
  • Explore material properties affecting pressure readings, focusing on elasticity
  • Learn about the mathematical relationship between force, pressure, and area (F=PA)
  • Investigate methods to minimize compliance effects in pressure measurements
USEFUL FOR

Engineers, physicists, and anyone involved in experimental mechanics or sensor technology will benefit from this discussion, particularly those working with pressure measurement systems.

emz500
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hi,i have been doing experiments with individual pressure sensors, while attaching the sensor to my thumb, if i press my thumb onto a hard surface the pressure recorded is very high, but when i push my thumb onto a soft surface, like a sponge i have to press a lot harder to get a high pressure reading. Newtons third law states that every action force has an equal and opposite reaction force, even though i feel I am exerting more pressure when I am pushing the sponge, it does not show this on the pressure readings. Do the varying pressure readings have something to do with the elasticity of the sponge, thus increaseing surface area-pressure disribution is higher??
im a little lost as how to explain this well, sorry.
Any help would be great. Thanks
 
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Are these force or pressure transducers?

The compliance of the sponge means that your hand has to travel a farther distance until the sponge creates the required reaction force. Think of the sponge as a spring and F=kx. Really you should not have to exert more force to get an equivalent reading. However, if this is indeed a pressure sensor, there may be an issue with the compliance at the measurement location of the transducer. Since the surface is not completely rigid, you may get some deviation.
 
thanks for your message. So if i push down on both the hard surface and soft surface equally, i will get a lower pressure reading with the soft surface as i have to push down further with the soft surface in order to equal the reaction force of the hard surface? is that correct? thanks again
 
If you push down with an equal amount of force, you should get the same reading from your transducer. The key words are "with the same force". If you are applying the same force that means the object you are pushing against is providing the appropriate reaction force. The sponge will make you move your hand farther than the hard material.

There may be a bit of a difference if, at the surface of the transducer, there is a bit of compliance that you can not control. Again, that goes back to if you are using a pressure or force transducer. If you are using a force transducer there shouldn't be a difference.
 
hi. It is a pressure transducer. i think i understand what is being said. So what would happen if i didnt push my hand in as far into the sponge? the readings would be less compared to hard surface?
 
Is your finger physicallly touching the sponge? That is the only possible way that you could measure less pressure but apply more force.
 
Incase of sponge, the area that experiences the force is more and that is why pressure is less. Press the sponge to such an extent that it will not deform and then your pressure reading should be same with that of hard surface.
 

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