Neurons Job:
1. Receive Information: Neurons receive input from other neurons through structures called dendrites.
2. Process Information: Once a neuron receives enough input to surpass a certain threshold, it processes this information and generates an electrical signal known as an action potential.
3. Transmit Information: This action potential travels down the neuron's axon to its end, where it causes the release of neurotransmitters. These chemicals then cross a synapse (a small gap) to communicate with or stimulate neighboring neurons or muscle cells.
1. Receive Information: Neurons receive input from other neurons through structures called dendrites.
2. Process Information: Once a neuron receives enough input to surpass a certain threshold, it processes this information and generates an electrical signal known as an action potential.
3. Transmit Information: This action potential travels down the neuron's axon to its end, where it causes the release of neurotransmitters. These chemicals then cross a synapse (a small gap) to communicate with or stimulate neighboring neurons or muscle cells.
1. Receiving Information:
#### a. Dendrites:
Dendrites are branched extensions of neurons that act like antennas to receive messages from neighboring neurons. They convert these messages into small electric impulses and transmit them inward, toward the main body of the neuron.
Dendrites are crucial for receiving information from other neurons. They are highly branched extensions that propagate the electrochemical stimulation received from other neural cells to the cell body of the neuron. The branching structure of dendrites increases the surface area available for receiving signals, allowing a neuron to receive input from many other neurons. These structures play a critical role in integrating synaptic inputs and determining the extent to which action potentials are produced by the neuron. Below is a diagram illustrating the structure of dendrites and their function in a neuron.
#### b. Synaptic Transmission:
Synaptic transmission, or neurotransmission, is the process by which signaling molecules called neurotransmitters are released by a neuron (the presynaptic neuron), and bind to and activate the receptors of another neuron (the postsynaptic neuron). This process occurs at specialized junctions called synapses. When an action potential reaches the axon terminal of the presynaptic neuron, it triggers the release of neurotransmitters into the synaptic cleft, the small gap between the neurons. These neurotransmitters then bind to receptors on the dendrites of the postsynaptic neuron, initiating a new action potential, or inhibiting one, in the postsynaptic neurons. Below is a diagram illustrating the basic model of neurotransmission:
❤1
This media is not supported in your browser
VIEW IN TELEGRAM
Internal wiring of the brain
Brain wiring involves two key components: gray matter and white matter.
Gray matter consists of neuronal cell bodies, dendrites, and unmyelinated axons. It's primarily involved in processing and interpreting information from the senses and controlling muscle movements.
The video shows the white matter, which contains myelinated nerve fibers and connects different areas of gray matter, facilitating rapid communication within the brain.
Video credit: Cardiff University
Brain wiring involves two key components: gray matter and white matter.
Gray matter consists of neuronal cell bodies, dendrites, and unmyelinated axons. It's primarily involved in processing and interpreting information from the senses and controlling muscle movements.
The video shows the white matter, which contains myelinated nerve fibers and connects different areas of gray matter, facilitating rapid communication within the brain.
Video credit: Cardiff University
❤1👍1
🚀 Explore the Neurotech world with a heckthone that caters to all levels!
🖥️ Whether you know a bit of programming or are a total beginner, tutorials are available.
📚 Dive in for a chance to win prizes and elevate your skills.
Register now: https://neurotechx.com/hackathon2023/
December 2nd & 3rd
Don't miss out on this coding adventure!
#CodingChallenge #Hackathon #JoinNow 🚀
🖥️ Whether you know a bit of programming or are a total beginner, tutorials are available.
📚 Dive in for a chance to win prizes and elevate your skills.
Register now: https://neurotechx.com/hackathon2023/
December 2nd & 3rd
Don't miss out on this coding adventure!
#CodingChallenge #Hackathon #JoinNow 🚀
NeuroTechX
NeuroTechX Global Hackathon 2023 - NeuroTechX
NeuroTechX 2023 Global Hackathon - bringing together enthusiasts and specialists alike from different backgrounds. Hack on use-cases of Neurotechnology and Brain-Computer Interfaces [BCI].
Recording EEG From Visual Cortex of Brain Using BioAmp EXG Pill : 9 Steps - Instructables
https://www.instructables.com/Recording-EEG-From-Visual-Cortex-of-Brain-Using-Bi/
https://www.instructables.com/Recording-EEG-From-Visual-Cortex-of-Brain-Using-Bi/
Instructables
Recording EEG From Visual Cortex of Brain Using BioAmp EXG Pill
Recording EEG From Visual Cortex of Brain Using BioAmp EXG Pill: In this project we will be recording brainwaves or EEG from visual cortex part of the brain using BioAmp EXG Pill and Maker Uno.
What is Electroencephalography (EEG)?
An electroencephalogram…
What is Electroencephalography (EEG)?
An electroencephalogram…
Hi everyone.
I'm looking for someone with interest in biomechanics of movement for a cool project. Must be in middle east (preferably Egypt).
DM or reply.
I'm looking for someone with interest in biomechanics of movement for a cool project. Must be in middle east (preferably Egypt).
DM or reply.