Apr-03-2019, 11:03 AM
Hello everybody,
I'm afraid I'm totally wrong with my question here, but I thought it might be worth a try...
I am currently working on an experiment investigating the formation of planets.
I have a vacuum chamber in which dust particles form bigger agglomerates through accretion (sticking together).
From the imagery I can see those agglomerates which are build up by smaller monomeres.
They look a bit like this (see picture). Now in the imagery I can see those agglomerates rotating with a constant velocity
![[Image: ZhJBpJj]](https://ibb.co/ZhJBpJj)
My goal is to find a way to approximate the volume of such polymeres. But I dont really know how to do this. My idea was
to somehow determine the volume by integrating over the "dark area" at every frame. Then I could take the mean of all
the integrations and would get something like the mean value of the visible area. Then I could calculate the solid of
revlution around the rotation axis.
But I am afraid the measurement error would be huge.
I am certain that there is a better way of doing it. Since I know the "2d shadow" of the object from every angle, there should be some kind of way to determine the volume right?
I am very thankful for every idea / link / or literature that someone would suggest give me.
Greetings from germany!
I'm afraid I'm totally wrong with my question here, but I thought it might be worth a try...
I am currently working on an experiment investigating the formation of planets.
I have a vacuum chamber in which dust particles form bigger agglomerates through accretion (sticking together).
From the imagery I can see those agglomerates which are build up by smaller monomeres.
They look a bit like this (see picture). Now in the imagery I can see those agglomerates rotating with a constant velocity
My goal is to find a way to approximate the volume of such polymeres. But I dont really know how to do this. My idea was
to somehow determine the volume by integrating over the "dark area" at every frame. Then I could take the mean of all
the integrations and would get something like the mean value of the visible area. Then I could calculate the solid of
revlution around the rotation axis.
But I am afraid the measurement error would be huge.
I am certain that there is a better way of doing it. Since I know the "2d shadow" of the object from every angle, there should be some kind of way to determine the volume right?
I am very thankful for every idea / link / or literature that someone would suggest give me.
Greetings from germany!
