One great advantage of this method is that it is virtually immune to changes in liquid density, unlike hydrostatic displacer methods. It's basically a modern adaptation of the old float-and-tape technology, using an extremely precise technique for measuring the float's position.
The change in float position will be relatively small compared to the span of the liquid level being measured. In contrast, any change in liquid density will affect a hydrostatic or displacer instrument proportionately along its entire range.
lol, what the hell?! this has got to be the most ridiculously wildly exotic setup for measuring the height of a liquid I've ever seen. Why?! So many simpler methods available. interesting though.
One great advantage of this method is that it is virtually immune to changes in liquid density, unlike hydrostatic displacer methods. It's basically a modern adaptation of the old float-and-tape technology, using an extremely precise technique for measuring the float's position.
The change in float position will be relatively small compared to the span of the liquid level being measured. In contrast, any change in liquid density will affect a hydrostatic or displacer instrument proportionately along its entire range.
Thank you for the video and explanation.
Thank you for the video and explanation.
realy the best and simple
good video to learn
lol, what the hell?! this has got to be the most ridiculously wildly exotic setup for measuring the height of a liquid I've ever seen. Why?! So many simpler methods available. interesting though.