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Foundations


The First Image: What Happens in the First 100 Milliseconds
Understanding How Our Brain Sees When you open your eyes or encounter something new, your brain quickly creates a picture of what you are seeing. In about 100 milliseconds (ms), your brain has already formed a basic image of your surroundings. This image isn't complete, but it gives you a clear outline of what is there. Here is what actually happened in that brief moment: 0-10 ms: Light hits the retina. At the back of the eye is the retina, which contains photoreceptors. Pho

Pamela Brown
Dec 11, 20252 min read


Neurotransmitter Systems
Your brain is not one big electrical signal. It’s actually hundreds of chemical conversations happening at once. These chemicals are neurotransmitters, and they control everything from motivation to movement. You’ve probably heard of dopamine and serotonin. Dopamine gets called the “pleasure” molecule and serotonin the “happiness” molecule. While those labels have tiny grains of truth, they’re mostly oversimplified marketing slogans. The real science is far more interesting,

Pamela Brown
Nov 29, 20255 min read


Synaptic Transmission: How Neurons Talk to Each Other
If action potentials are the electrical language of the brain, synaptic transmission is the grammar that gives those signals meaning. Because the real magic taking place in the brain doesn’t happen inside neurons. It happens between them and FAST — in about 1/10000th of a second. Action potentials are what sends electricity down a neuron, but synaptic transmission is what lets one neuron send a message to another. This “handoff” is how thoughts form, habits solidify, memories

Pamela Brown
Nov 20, 20255 min read


Action Potentials: How Your Neurons Fire and Wire
Have you ever wondered how your brain turns a thought into a movement? Or how you remember someone’s face in a crowd? What blows my mind is that there is a constant symphony of electrical and chemical activity happening inside your skull.... as in right now and as you read this sentence. Thoughts are not intangible. You may not be able to touch them, but they are physical events - tiny measurable changes in voltage. And at the very heart of every thought, every memory, every

Pamela Brown
Nov 17, 20255 min read


Resting Membrane Potential Explained: From Neurons to Everyday Health
Have you ever wondered why dehydration makes you feel sluggish, or why athletes chug electrolyte drinks? The answer starts with something most people have never heard of - the resting membrane potential. If you haven’t studied much science, you may have never heard of a resting membrane potential . But let's break it down word by word to make it easy to understand: Membrane: The cell membrane is like the skin of the cell. It is what separates the inside of the cell from its e

Pamela Brown
Sep 27, 20254 min read


Neurons & Glia: The Brain’s Hidden Partnership
Nervous Tissue: Spinal Cord Motor Neuron Every time you remember a name, learn something new, or drift off to sleep, two types of brain cells are working together: neurons and glia. Neurons: The Signal Carriers Neurons are the cells responsible for communication. You’ve probably heard the phrase, “Neurons that fire together, wire together.” A typical neuron has three main parts: the soma (cell body with the nucleus and organelles), dendrites (branches that receive signals fr

Pamela Brown
Sep 13, 20253 min read


From Phrenology to fMRI: How Neuroscience Shapes Our Lives
From skull bumps to brain scans, our understanding of the brain has transformed dramatically. This post traces the journey from ancient thinkers to modern neuroscience tools like fMRI and shows why the brain isn’t just history’s greatest mystery, but a guide to how we live, learn, and grow today.

Pamela Brown
Sep 2, 20254 min read
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