Or sometimes fold them over trees of objects!
Or sometimes fold them over trees of objects!
Shout out to Retro Video Game Mechanics Explained for his explanation of the entire construction of the cries.
That phrasing refers to a very broad set of movements and individuals. The usual core beliefs are:
Exactly why and how law/government authority is defective, how they understand natural law, what the spells are that they have to cast - all of these are extremely variable both between jurisdictions and between individuals.
Primarily it’s a set of grifters charging money for courses and materials to learn about these beliefs from whoever they can convince. Sometimes, as in Germany, it’s a group of neo-Nazis plotting to reinstate the Kaiser.
You might enjoy münecat’s longer form explanation.
Interesting. I guess for me the “trans” bit just isn’t as strongly coupled to the person - that it’s natural to use “man” for such a person in general, and it’s a context (e.g. healthcare or the politics of it) that can make the subcategory be relevant.
If I describe someone as a “tall man” or “clever man”, do those qualifiers/subcategorizations call into question whether he is a “man”?
If they don’t, I’m genuinely interested in hearing what distinction you apparently see between those two and saying he is a “trans man”.
It becomes inherently difficult to make datasets actually anonymous the more data points they have about a given individual - it doesn’t much matter whether names and such are listed data points if they can be inferred from the rest. This investigation by Svea Eckert and Andreas Dewes, for instance, managed to identify a named German member of parliament (Valerie Wilms) and other public functionaries within a data set on web browsing habits they received from data brokers.
Most countries do have data privacy legislation and relevant regulatory/enforcement agencies, but the data brokerage business is big and intensely international so the picture on audits is kind of unavoidably complicated.
I’d say the key insight with quantum computing is that its algorithms are about choreographing interference patterns among qubits such that wrong answers cancel each other out but right answers reinforce one another. It’s not just a matter of trying possibilities in parallel or “running different probabilities simultaneously” - the qubits’ states are complex combinations of 0 and 1 states, and they interact with and change one another. Simulating those interactions on a classical computer requires exponentially growing amounts of memory space and time as the quantum computation gets bigger. Trying to divide-and-conquer this simulation over multiple classical computers runs into the need for different parts of the circuit to know about each others’ state, limiting how much work can be sectioned off to be done by each computer in the group.
This is pretty much the underpinning question of the entire field of evolutionary developmental biology, so naturally any answer is going to be a bit surface level, and I get out of my depth fairly rapidly to be honest. Still, it is quite interesting.
One of the central ideas is that as an embryo grows, its cells go from being all equivalent multipotent stem cells into being different from each other - at first more specialized types of stem cell that can only turn into certain tissues and gradually specializing more and more. Since these cells are differentiated and expressing different genes from one another, they can then start to co-ordinate with each other using chemical markers and gradients of concentration of those markers across space to regulate what types of cells should be growing/dividing, where in the embryo they should be doing it and at what time they should be doing it.
That signaling is in turn controlled by some often complicated networks of regulatory genes - ones which when they are expressed make proteins that selectively attach to other bits of the DNA in that cell and make the genes there more or less likely to be expressed themselves. A lot of evolutionary variation is actually focused on these regulatory systems rather than on the genes which they are switching on and off.
So to my knowledge, something like nose shape likely comes down to some of those regulatory genes controlling where the cells that will eventually be forming the cartilage get placed relative to the skull etc.