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#Neurons Reel by @scienceexplored - The human visual system detects motion by tracking changes in brightness over time, not by measuring exact positions. When the figures switch from da
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@scienceexplored
The human visual system detects motion by tracking changes in brightness over time, not by measuring exact positions. When the figures switch from dark to light, motion-sensitive neurons in the brain activate as if an object has shifted location. Your brain assumes that a sudden contrast change means movement, because in the real world, moving objects usually cause brightness changes on the retina. The staircase layout adds a strong expectation of falling or jumping, so the brain fills in motion that isn’t there. This content is shared strictly for educational purposes. DM us for credit/removal. (No copyright intended) #science #knowledge #learning
#Neurons Reel by @world_of_biology_wob - Why do myelinated neurons transmit signals faster? Because of saltatory conduction - the electrical impulse doesn't crawl along the neuron. It jumps
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@world_of_biology_wob
Why do myelinated neurons transmit signals faster? Because of saltatory conduction - the electrical impulse doesn’t crawl along the neuron. It jumps node to node, bypassing the insulated myelin segments. Less resistance. More speed. Maximum efficiency. Think of myelin as express lanes on a neural highway — same destination, dramatically faster travel. If you enjoy neuroscience explained simply, hit Follow for more. #Neuroscience #Myelin #BrainScience #NeuralSignals #ScienceSimplified
#Neurons Reel by @teachyoubiology - This Reel from @explainingbiology_ features a mesmerizing close-up macro video of a real (or highly realistic model/dissection) peripheral nerve bundl
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@teachyoubiology
This Reel from @explainingbiology_ features a mesmerizing close-up macro video of a real (or highly realistic model/dissection) peripheral nerve bundle or neuron network—a tangled, branching mass of white, thread-like nerve fibers that resemble uncooked spaghetti or intricate wiring. The strands gently pulse, twitch, or sway slightly (likely due to microscopic movements, fluid flow in a live sample, or subtle camera/editing effects), creating an almost lifelike, “nervous” jitter that makes it look anxious or fidgety on camera. This visual hook ties perfectly into the educational overlay text explaining the nervous system’s role in controlling the body via neurons and electrical/chemical signals, with the brain as the command center and peripheral nerves executing actions. The eerie, spaghetti-like appearance sparks the humorous anthropomorphism in comments (“it seems a little nervous,” “He is so nervous,” “looks nervous,” “ma spaghetti until waCompressa”), turning a serious biology lesson into relatable, meme-worthy content. It’s a classic example of how macro biology footage can go viral by blending awe-inspiring science with unintentional comedy—people see “nerves” and instantly project human anxiety onto the literal nerves! Scientifically, this showcases the peripheral nervous system’s dense, myelinated axons and dendrites that transmit rapid signals for sensation, movement, and reflexes—far more complex and efficient than any man-made wiring. The smooth, glossy texture under magnification highlights why nerves are both delicate and resilient, emphasizing the body’s incredible engineering where billions of these fibers coordinate everything from a heartbeat to a thought in milliseconds. Studies in neurobiology remind us that this network processes information faster than the speed of sound in some reflexes, proving evolution’s masterpiece in biological circuitry. No wonder it looks “nervous”—it’s literally the system handling all our nerves! Who else sees the spaghetti vibes or feels the science chills? Drop a 🧠 if this blew your mind or a 😂 if it just looks anxious AF! #NervousSystem #BiologyFacts #Neurons #ScienceReels #MacroBiology
#Neurons Reel by @milaa.noir - Picture this: a classroom full of brains buzzing like caffeinated bees, and me-the fearless conductor of chaos-turning confusion into enlightenment (a
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@milaa.noir
Picture this: a classroom full of brains buzzing like caffeinated bees, and me—the fearless conductor of chaos—turning confusion into enlightenment (and maybe a little panic). The human brain has 86 billion neurons, which is a lot of tiny decision-makers—some cooperative, some throwing wild tantrums like toddlers on a sugar rush. My mission? To teach them without starting a small neurological war. Thanks to neuroplasticity, I get to play brain-plumber: rearranging connections, unclogging doubts, and occasionally sprinkling in a joke so funny that a neuron might actually high-five another neuron. Honestly, being a teacher is like being a magician who also does biology experiments and stand-up comedy at the same time." "And let’s talk about the butterfly effect, because apparently, even a sneeze in a classroom could change the future of the universe—or at least your student’s lunch plans. If I inspire one student, who knows—they might grow up to cure cancer, invent a teleporting scooter, or finally figure out why socks disappear in the laundry. I want to be that invisible hand, the secret superhero behind the next big discovery, armed with a whiteboard marker and a ridiculous sense of humor. Teaching isn’t just about textbooks—it’s about creating chaos, curiosity, and occasional explosions of laughter that somehow lead to genius. Basically, I want to shape minds, change the world, and make sure nobody ever falls asleep in my class… well, not for long, at least.
#Neurons Reel by @scquest - The video captures a fundamental biological process called synaptogenesis. This is the formation of new connections, known as synapses, between neuron
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@scquest
The video captures a fundamental biological process called synaptogenesis. This is the formation of new connections, known as synapses, between neurons in the brain. ​Whenever we learn a new skill, memorize a fact, or form a new memory, our brain physically rewires itself. It is not just a digital storage of data; it is a structural transformation. These growing fibers reach out to establish communication pathways, allowing electrical and chemical signals to travel faster and more efficiently. ​This remarkable ability of the brain to change and adapt throughout our lives is called neuroplasticity. It proves that the brain is not a static organ but a dynamic, ever-evolving network that grows stronger with every new experience.
#Neurons Reel by @newscientist (verified account) - Neuron time-lapse wins 2023 Nikon Small World video competition ⚡️⏳️🥇⁠ ⁠ This 48-hour time-lapse film of neurons developing in the central nervous sy
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@newscientist
Neuron time-lapse wins 2023 Nikon Small World video competition ⚡️⏳️🥇⁠ ⁠ This 48-hour time-lapse film of neurons developing in the central nervous system of a chick embryo has won the Nikon Small World in Motion video competition.⁠ ⁠ Taken under a microscope by Alexandre Dumoulin at the University of Zurich, Switzerland (@uzh.ch), the footage shows the elongation of axons – projections from nerve cells – between the two hemispheres of the central nervous system. In neurological disorders, axons can be impaired. “By studying these, organisms I aim to enhance our comprehension of how the nervous system functions and identify potential factors contributing to neurodevelopmental disorders,” says Dumoulin.⁠ ⁠ Tap link in bio to see more winner and runners-up for the competition⁠ ⁠ #nikon #video #microscope, #microsopy, #neurons, #nervecells #nervoussystem #biomed #medicine, #humanbody #timelapse, #photography #science⁠
#Neurons Reel by @homocuriousapiens - The Troxler effect is a visual illusion where objects in your peripheral vision slowly fade away when you stare at a fixed point for several seconds.
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@homocuriousapiens
The Troxler effect is a visual illusion where objects in your peripheral vision slowly fade away when you stare at a fixed point for several seconds. This happens because your brain stops paying attention to unchanging information. When something stays still and your eyes do not move, the neurons responding to that image reduce their activity, so the brain fills in the area with the surrounding colors or patterns. A small eye movement or blink instantly brings the faded object back into view, showing how much of what we see is shaped by the brain, not just the eyes. #opticalillusion #troxlerseffect #neuroscience #humanperception #braintricks
#Neurons Reel by @hashem.alghaili (verified account) - Unlike what most people think, your brain keeps making new neurons well into late adulthood, according to a groundbreaking study.
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@hashem.alghaili
Unlike what most people think, your brain keeps making new neurons well into late adulthood, according to a groundbreaking study.
#Neurons Reel by @neurocore_tlc - The visual cortex splits color (area V4) and motion (area V5/ MT) into different processing streams. Against a striped background, motion neurons rece
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@neurocore_tlc
The visual cortex splits color (area V4) and motion (area V5/ MT) into different processing streams. Against a striped background, motion neurons receive conflicting signals at stripe edges and “average” them - producing the illusion of different speeds. This is called the “aperture problem” in visual neuroscience. Yellow is processed faster than blue due to cone cell differences in the retina, which is exactly why these two colors produce the strongest effect. Even knowing the truth, you can’t make your brain see equal speeds: the lower layers o visual cortex don’t respond to conscious control. The same mechanism explains why yellow-blue combinations in interiors and advertising create a sense of motion even in completely static images. Video author unknown. If you are the author (or rights holder), please contact us.
#Neurons Reel by @factomero_ - The visual cortex splits color (area V4) and motion (area V5/MT) into different processing streams. Against a striped background, motion neurons recei
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@factomero_
The visual cortex splits color (area V4) and motion (area V5/MT) into different processing streams. Against a striped background, motion neurons receive conflicting signals at stripe edges and "average" them — producing the illusion of different speeds. This is called the "aperture problem" in visual neuroscience. Yellow is processed faster than blue due to cone cell differences in the retina — which is exactly why these two colors produce the strongest effect. Even knowing the truth, you can't make your brain see equal speeds: the lower layers of visual cortex don't respond to conscious control. The same mechanism explains why yellow-blue combinations in interiors and advertising create a sense of motion even in completely static images. Video author unknown. If you are the author (or rights holder), please contact us. #facts #didyouknow #science #neuroscience #optics #brain ```
#Neurons Reel by @healngrow.psych - 🧠 Your brain is seeing motion… even when nothing is moving. In visual neuroscience, the brain processes color and motion in separate pathways. Colo
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@healngrow.psych
🧠 Your brain is seeing motion… even when nothing is moving. In visual neuroscience, the brain processes color and motion in separate pathways. Color is processed in V4, while motion is processed in V5 (MT). When yellow and blue stripes move across certain backgrounds, motion neurons receive conflicting signals at the edges. Your brain then tries to average the signals, creating the illusion that some parts are moving faster than others. This phenomenon is known as the aperture problem in visual neuroscience. There’s another twist: Yellow is processed faster than blue because of differences in cone cells in the retina. That’s why yellow–blue combinations create such strong motion illusions. Even when you understand the illusion, you still can’t unsee it. Because the lower layers of your visual cortex operate below conscious control. Interestingly, this is also why yellow–blue combinations in advertising and design can create a subtle sense of motion even in completely static images. Sometimes the illusion isn’t in the image — it’s in the brain. Disclaimer: This content is for educational and awareness purposes only. All rights belong to their respective owners. DM for credit or removal. Follow for more @healngrow.psych #Neuroscience #BrainFacts #VisualIllusion #Psychology #CognitiveScience BrainScience MindBlown Perception ScienceOfMind PsychologyFacts
#Neurons Reel by @amivadadamd (verified account) - The only place in the human body where part of the brain can be seen live 🤯😍👁️ I chose ophthalmology because it's one of the few fields where you c
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@amivadadamd
The only place in the human body where part of the brain can be seen live 🤯😍👁️ I chose ophthalmology because it’s one of the few fields where you can witness sight itself - living neurons, flowing blood vessels, the nervous system alive - and then protect it. That privilege never stops feeling extraordinary. #doctormom #doctorlife #eyehealth VC: @dr.aline_ahmad_

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