- 15 Posts
- 6 Comments
So far this season…
Enjoying:
- Horimiya
- Zom 100
Waiting to see how it plays out:
- Vending machine
- Ryza
- One Room Hero
- Helck
Waiting to binge after the season is over:
- Kenshin
Old show I am currently watching:
- Science Fell in Love
I don’t blame you for dropping Ryza. I am going to give it one more episode before dropping since I have heard good things about the source from a friend that is excited about it, but so far I have found it very dull.
6·1 year agoYeah, even comments here haven’t seemed to read the article. As somebody that used to install BOINC on all my machines back in the day, the reason I stopped is that many of the projects I ran (SETI being one) aren’t active any longer. Also, like the article mentioned, I just don’t have a desktop anymore and I am not about to run something like this on a laptop that doesn’t have things like user-serviceable or replaceable parts.
1·1 year agoI think that @[email protected] provided a great response for the specific case of flow in a pipe.
I just want to add that if you look beyond the restrictions of flow in a pipe, there are many other types of behavior that non-Newtonian fluids exhibit. We measure this in the lab on instruments called rheometers. Basically, we put some liquid in the instrument and then deform it and measure the resistance to that deformation. One of the most common ways to apply that deformation is to do so back and forth in an oscillating manner. Depending on the frequency at which you apply this strain, the solid/liquid-like behavior can change. If you have some background in physics or want to get a decent understanding, I found this paper that, on skimming it, seems to be pretty consistent with the way I was taught this stuff in grad school.
One graph I want to point out is Figure 13 which shows what would be a “typical” viscoelastic polymer solution. An easy way to understand this graph is that as we go from left to right, we are applying strain back and forth quicker and quicker, essentially shaking it faster. When the G’ value is higher than the G" value, then the material is behaving more like a solid and conversely, when G" > G’, then it is behaving more like a liquid. You can see that the material goes through different phases of behavior as the strain frequency changes. Just for you I went and dug up an old graph from my thesis to show a real-life example of this happening too.
My favorite demonstration of this is to put Oobleck (or something similar) onto a speaker and then change the frequency and see what happens.
The type of pill that was approved is the progestin-only “mini pill” which has a much safer clinical profile than the more common-in-the-US combination pill that has both progestin and estrogen. This type of pill is already available OTC in over 100 other countries. The US is just really behind the curve on just about anything to do with reproductive rights and care.