![]() ![]() ![]() What real neurons do to vary the intensity of a nerve signal is changing the frequency of signals. Neural signals don't have varying strengths.Īll neural electrical signals have more-or-less the exact same voltage. However, making my model deterministic meant I had to add another inaccuracy: 3. My goal with Neurons was teachin' peeps the general gist, rather than specific details. However, adding unpredictability to a model makes it harder to learn, and if I could get away without it, that's fine. One neuron doesn't directly cause the next connected neuron to fire - instead, it raises (or lowers) the next neuron's action potential, merely making it more likely (or less likely) to fire. ![]() I wish I didn't have to explicitly debunk the idea that thoughts live inside individual neurons, (to be fair, nobody knows how thoughts emerge from neural connections, they just do) but considering crappy popsci like this, and the fact so many people still believe that “we only use 10% of our brain”, I just gotta cover all my bases here. I was using those phrases as linguistic shorthand because explaining the world through symbolic spoken language is like eating a steak through a straw. You have no "dog" neuron or "pain" neuron. Thoughts don’t live in individual neurons. Nevertheregardless, for the sake of intellectual honesty, here's everything I know I lied about, why I simplified them the way I did, and what I know I don't even know. Likewise, this model throws away details that may distract from learning about the core principles of anxiety and therapy. I think this can be a good thing - a street map is useful not just despite simplifying the city, but because it simplifies the city. Otherwise, you'll find that there really is no purpose to a tool without the knowledge required to operate it.My most recent interactive project, Neurotic Neurons, has a lot of simplifications. With this in mind, be sure to access the program's functions only if you understand what to use it for. It's the domain and subject it deals with that complicates things. Why? Well, the program has all the perks of a friendly application. A revolving animation can be created, unraveling the full of extent of your creation.ĬrystalMaker is definitely complex and easy to use at the same time. Information can be added to explain what the user sees in the 3D model you've assembled. Distances can easily be calculated when using the provided ruler. You can always rearrange the viewing position by spinning or rotating your creation.Ī center button will help you revert to the central part of your design. Start by adding the various elements, including axes and ties to define the bonds between your added elements. Further executable actionsĪfter choosing your template, proceed to create the structure you wish to. It's sufficient to say that as long as it exists in a chemical form, you'll be able to replicate it within this program. Here, depending on your interests and goals, you can choose between electron density resolution type images, face-centered cubes, silicon interface arrangements, benzoic acid structures, and many more. The library browserĭepending on the complex molecule you are building, you might want to check the various forms and options contained in the program's main library. Now, while the app is easy to navigate and understand, the user is required to have the necessary background knowledge to successfully operate the program. CrystalMaker, like the name suggests, is a great aid for individuals that deal with the scientific creation of molecules and crystal models, for chemistry-related tasks mostly. ![]()
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