How Our Brain Remember:
Never Forget Again

🔗 Subscribe to 504 sites for just $30/year—only 6¢ each!

☑️ One-click access to formulas, calculators, and concepts

📧 No coding, no hosting—just email what you want to remember

📱 Live within 24 hours, optimized for mobile and voice search

💸 $30/year = 504 personalized memory sites (only 6¢ each!)

🎯 NEVER FORGET.
Every solved problem becomes trusted automation—saving you time, reducing stress, and helping you make smarter decision faster.
Subscribe now—because your memory deserves a backup.

🔗 About IN-V-BAT-AI

🔗 Buy 304 Math AI Tutor
$120 per school per year
click to read more

Tap below to search this page

How Our Brain Neurons Store Knowledge and Experience?

Using two-photon microscopes and mice brain it is now possible to see how brain is learning in real time. This new brain imaging technology open our eyes to see how learning happens at neurons level specifically at synapse and dendrite area.

The brain neurons from the living mice are the closes brain neuron to a living human brain. Hence, it is commonly selected as the best cost effective available estimator of human brain neurons in many modern brain research. One neuron is made up of the following basic components namely soma, axon, and finally dendrites. When the two neurons are talking to each other their dendrites appears to be connected. But when viewed from functional Magnetic Resonance Imaging (fMRI) there is a gap between dendrites. That gap area or space area between two dendrites are called the synapse

credit: Duke PEP Project: The Pharmacology Education Partnership

By repetition, regular use or training, the synapse gap seems to create a wiring connection between two neurons.

It is now possible to tell when learning started to happen in the brain. It happens when the green flourescent stained dye neuron lighted up and create a visible wiring connection between neurons.

credit to: Patricia Janak - John Hopskin Science of Learning Institute

By repeating the same activities the neuron wiring connection becomes stronger and traceable. But the neuron wiring connection faded away or not traceable if the activities is not repeated for longer period of time. We call this neuron wiring connection loss as forgetting.

Hence, student can remember quickly what they studied and use regularly. But forget if they are not using it regularly.

The brain research highlighted repetition or practice or training in order to store knowledge in memory. It is supporting the latest learning science research to improve knowledge retention such as retrieval practice, spaced practice, interleaved and varied practice, summarizing and drawing, and self-explanation.

The neuron wiring connection was captured using dyed stained neuron
credit: Neurondevelopment.org on page 113

Proposal to visualize neuron wiring connection
credit: Neurondevelopment.org on page 199

Do you know how many synapse wiring connections between two neurons? It was estimated as about 10,000 wiring synapse connections. It means a single neuron has about 10,000 parallel dot input wiring connections to transmit and receive information to any nearby neurons.

Shown below is one count of neuron out of approximately 86 billions of neurons in human brain.

Image credit to: duke.edu website

Imagine we assigned a single count of brain neuron cell number (Tap It. Interactive) as memory storage address for collected knowledge about Pythagorean equation. How to use the Pythagorean equation formula and how to use the calculator to solve Pythagorean equation problem.

The radiating lines shown below are used to visualize up to 10,000 wiring connection to nearby neuron cell.

Our brain stored our knowledge and experience by repetition, training, or practice. But how do you retrieve your stored knowledge in your brain on demand? With augmented intelligent chatbot tool available on smartphone, like IN-V-BAT-AI, students will have external switch to turn on their brain neuron synapse to retrieve their stored knowledge and experience.

Try using brain neuron number . It was pre-assigned by the author as memory storage address for collected knowledge about pythagorean equation.

Students can access their personal AI chatbot in their smartphone using voice or text input. With this personal AI chatbot available in smartphone, student have now external control to retrieve brain neuron number 97 that stored collected knowledge about Pythagorean equation on demand.

With approximately 86 billion neurons available in our brain, we can store enormous amount of knowledge. Our brain has the capability to store knowledge but it is hard to retrieve those stored knowledge. That is why our brain needs augmented intelligence using AI and cloud technology to solve the information retrieval problem. This observation has implication on how we can improve our classroom instruction, role of the teacher, and how student retain their collected knowledge to improve their learning outcome.

Cognitive Science and Neuroscience are collaborating to better synthesize the scientific basis of learning understanding, reasoning, and thinking.

Memory scientist believes that the neural wiring connection called synapse between neurons are important component for memory storage and retrieval. These new connections between neurons and synapses stay as long as they remain in use. It means if the neural wiring connection is not readily available, the student will have hard time remembering collected knowledge. Is there a solution to restore instantly the brain neural connection?

Yes, IN-V-BAT- AI is promoting the solution to restore instantly the brain neural connection. How? By having IN-V-BAT-AI never forget website subscription, the brain neural wiring connection becomes instantly available again to students.

Remember, if students don't use their collected knowledge regularly, it might not be available to them on demand when they needed it. This observation has been known as Ebbinghaus forgetting curve. But there is now a solution, start creating your personal AI chatbot. If you don't know how to do it. We can help.

There is no short cut in learning

A group of neurons called Dopamine neuron was studied to discover how sequential learning in the brain of a mice occured. It took many days of repetition of correct sequence of action before the brain wiring connection to learn sequential task to happen. How can teachers use this research to improve their teaching method? How can students use this research to convince them that there is no short cut in learning? They need to practice the correct sequential procedure in order to attain mastery of the subject.

When the formation of neuron wiring connection occured inside the brain of student we don't see it. The only external observable evidence that the neuron wiring connection occurred in student's brain is our assessment test. Therefore, state and federal govenment gives summative assessment test and publicly report the assessment result.

Is giving student a personal AI chatbot as brain augmentation a cheating tool or an innovation for learning acceleration and memory retention tool? That is the question I will give my thoughts in the next few paragraphs.

In 21st century AI work environment there are many non-repetitive task that makes our brain forget how to do certain task. Hence, company created job aid to help workers remember. In engineering work environment especially on sensor signals, monitoring, and automation, engineers use a lot of software tools to speed up the computation and design process. How do practicing engineers manage to remember a lot of very exact knowledge in order to program, operate, maintain, update, design, create, delete, append, and so on? If engineers are doing the same task for many years, they can remember quickly using their brain memory recall. But in reality, practicing engineers are doing many tasks and from time to time they need memory clue words to trigger the knowledge retrieval process. If they totally forget, what do engineers do? They use their computer to search their content management database. So, knowing what's happening in the real work environment where the students are expected to work in the future, does allowing students to start creating their personal AI chatbot giving them a cheating tool? Or are we helping and preparing them to adapt and survive in the rapid advancement of automation and augmented intelligence?

Remember this Dopamine neuron observation is valid in mice brain for now and neuro-scientist believes that it might work the same way in human brain.

Skip and go to time 25:07 and 32:23 and 34:40
credit to: Patricia Janak - John Hopskin Science of Learning Institute

Credit: McGraw Hill Higher Education - Discovery Channel

Things to remember:
Our brain neuron can be relocated when by accident the brain area was damaged. This ability to create new pathways was known as brain plasticity.

Can our brain create new neurons or grow new neurons?

Shown below is a visualization of how knowledge is stored in our brain neurons. Did you see the location of synapse?

Synapse is the area where the electrical signal or chemical reactions are happening that creates the wiring connection between neurons. Memory scientist believes the neural wiring connection called synapse between neurons are important component for memory storage and retrieval.

Without activating the electrical signal or chemical reactions at neuron's synapse for neuron number for example. It will be hard to retrieve the stored knowledge about Pythagorean equation. But how can you turn on the synapse switch for neuron number 97? There must be an input sensory signal to activate the synapse switch for neuron number 97. The author believes that reciting the word Pythagorean equation will trigger the auditory sensor input to turn on the synapse switch for neuron number 97, hence, you can retrieve the information stored in neuron number 97 which is about Pythagorean equation. Another way to turn on the synapse electrical signal for neuron 97 is by seeing the word Pythagorean equation if reciting in low voice is not allowed during examination. Furthermore, another way to turn on the synapse electrical signal to neuron 97 is by kinesthetic neuron input meaning by writing the word Pythagorean equation. These three input sensors eyes, ears, and hands are needed to turn on the synapse electrical signal. These three input sensors are the old ways of information retrieval method that do not guarantee to retrieve your collected knowledge.

Thanks to AI and cloud technology human brain again multiplied its ability to retrieve their collected knowledge by using augmented intelligent chatbot that guaranteed information retrieval of their collected knowledge in the shortest possible time.

In conclusion, using knowledge of synapse location and its function, it is easy to explain how we stored our collected knowledge and experience and why we forget information we studied but not frequently use. Forgetting is no longer a problem if we have a personal augmented intelligent chatbot available on demand using many low costs devices. Are you ready to create your personal AI chatbot.
IN-V-BAT-AI can help.

Recent breakthroughs in neuroscience related to memory

Brain Memory Engram Explanation: If you take a picture of a small portion of a brain neuron using electron microscope at nanoscale measurement. You will see a brain neuron with all dendrites or wiring connected to each other in a special way. This small portion of brain neuron with associated wiring connection is called memory engram. These connections help the brain store knowledge and experience as memory, so you can recall it later.

Dendrites Linking Memories: A groundbreaking study published in Nature Neuroscience found that dendrites, the branch-like extensions of neurons, actively link memories that occur close in time.

Never Forget is Now Possible With
IN-V-BAT-AI. Store Your Knowledge in the Cloud.

IN-V-BAT-AI helps you recall information on demand—even when daily worries block your memory. It organizes your knowledge to make retrieval and application easier.

Source: How People Learn II: Learners, Contexts, and Cultures

How can IN-V-BAT-AI be used in classrooms ?

IN-V-BAT-AI is a valuable classroom tool that enhances both teaching and learning experiences. Here are some ways it can be utilized:

⋆ Personalized Learning : By storing and retrieving knowledge in the cloud, students can access tailored resources and revisit concepts they struggle with, ensuring a more individualized learning journey.

⋆ Memory Support : The tool helps students recall information even when stress or distractions hinder their memory, making it easier to retain and apply knowledge during homework assignments or projects.

⋆ Bridging Learning Gaps : It addresses learning loss by providing consistent access to educational materials, ensuring that students who miss lessons can catch up effectively.

⋆ Teacher Assistance : Educators can use the tool to provide targeted interventions to support learning.

⋆ Stress Reduction : By alleviating the pressure of memorization, students can focus on understanding and applying concepts, fostering a deeper engagement with the material.

🧠 IN-V-BAT-AI vs. Traditional EdTech: Why "Never Forget" Changes Everything

📚 While most EdTech platforms focus on delivering content or automating classrooms, IN-V-BAT-AI solves a deeper problem: forgetting.

✨Unlike adaptive learning systems that personalize what you learn, IN-V-BAT-AI personalizes what you remember. With over 504 pieces of instantly retrievable knowledge, it's your cloud-based memory assistant—built for exam prep, lifelong learning, and stress-free recall.

✅ One-click access to formulas, calculators, and concepts
📧 No coding, no hosting—just email what you want to remember
📱 Live within 24 hours, optimized for mobile and voice search
💸 $30/year for 504 personalized memory sites (just 6¢ each)

"🧠 Forget less. Learn more. Remember on demand."
That's the IN-V-BAT-AI promise.

Personal Augmented Intelligence (AI) Explanation

🧠 Augmented Intelligence vs Artificial Intelligence

Understanding the difference between collaboration and automation

🔍 Messaging Contrast

Augmented Intelligence is like a co-pilot: it accelerates problem-solving through trusted automation and decision-making, helping you recall, analyze, and decide — but it never flies solo.

Artificial Intelligence is more like an autopilot: designed to take over the controls entirely, often without asking.

💡 Why It Matters for IN-V-BAT-AI

IN-V-BAT-AI is a textbook example of Augmented Intelligence. It empowers learners with one-click recall, traceable results, and emotionally resonant memory tools. Our “Never Forget” promise isn't about replacing human memory — it's about enhancing it.

Note: This is not real data — it is synthetic data generated using Co-Pilot to compare and contrast IN-V-BAT-AI with leading EdTech platforms.

$120 per school per year

Tap here to learn more

Advertising

🎉 60,000 Visitors 10/24/25

IN-V-BAT-AI just crossed 60,000 organic visits—no ads, just curiosity and word-of-mouth.

Every visit is a step toward forgetting less, recalling faster, and remembering on demand.

Never Forget. Learn on demand.

🔗 Subscribe

IN - V - BAT - AI
Try AI website hosting
$30 per year

Year	Top 10 countries	Pages visited
2023	1. USA 2. Great Britain 3. Germany 4. Canada 5. Iran 6. Netherlands 7. India 8. China 9. Australia 10. Philippines	127,256 Pages / 27,541 Visitors
2024	1. USA 2. China 3. Canada 4. Poland 5. India 6. Philippines 7. Great Britain 8. Australia 9. Indonesia 10. Russia	164,130 Pages / 40,724 Visitors
Daily Site Visitor Ranking 10/26/2025	1. USA 2. Canada 3. Brazil 4. Vietnam 5. China 6. India 7. Argentina 8. Japan 9. Morocco 10. Indonesia	Year to Date 178,030 Pages / 60,375 Visitors

Data source: Advanced Web Statistics 7.8

Approximately between 2.3 and 2.5 million schools globally, according to the latest available data from government and education ministry reports.

Use an estimated range of 200 to 400 students per school if student enrollment is the only available data.

🔗 Privacy Policy 🔗 About

🔗 Disclaimer