The Fundamental Science Of Brain-Based Learning: 7 Subconscious Brain Functions And Learning Processes

I won’t tell you what you can do today to learn better or be smarter, but I will tell you what the brain does for you. The brain is a complex learning machine. While you can deliberately learn by using strategies, I will share with you what happens behind the scenes. The brain has a few specialized subconscious (or unconscious, or implicit, or subterranean) processes which make it an efficient learning organism.

Understanding how your brain senses, perceives, comprehends, learns, applies, and uses information is the first step of tapping into your highest learning potential. Appreciate the amazing brain functions & processes that make you uniquely you.

Brain-based learning is all about utilizing the brain’s core learning mechanisms to improve the quality of learning. We’ll first look at what these learning mechanisms do in the human brain. These principles can be hijacked for improved learning.

Note: I’m making a clear distinction between 2 perspectives on learning:

  1. The processes involved in the brain which let you learn (default brain functions)
  2. What you can do about learning efficiently (actionable insights)

This article is about the first point. For the second point, you can check out these articles – One, Two, Three, Four

Let us begin.


Cross-sensory perception: The raw information in learning

The idea that each sense gives information to the brain and the brain interprets it is not exactly true. If you thought it is similar to how a camera takes a photo and the computer processes that light ‘data’ to form an image file, you are wrong. The brain does something very different. First, read this to know more about the senses we have.

Our senses unify and combine at many different places in the brain and help create a single percept (a unit of perceived stuff). This means that your senses are going to mix, and mingle, and no longer remain separate inputs of information. Furthermore, information from one sense influences the interpretation of another sense. For example, Coffee from a steel glass will taste different than the same coffee from a plastic glass; triangular food will taste saltier than rounded food. Here are some ways in which all our senses manipulate taste.

This is a part of ideasthesia (not synesthesia; it’s a related concept). Our senses cross-talk, influence each other and unify to form a single coherent unique perception. As this literature is dense and is one of my favorite topics, here is a dedicated post explaining the concept with an experiment.


Transfer effect: Learning ‘A’ helps learning ‘B’

When we learn any skill, over time, the brain forms a network of neural connections that are dedicated to that skill. This network represents the contents and the process of that skill. Each skill is then made up of smaller sub-skills and the brain, as usual, forms an abstract process to enable that skill. This abstract process is often transferable to other similar skills or sub-skills. That means, when you learn one, you transfer some of that learning to the new skill automatically, making the new skill easier to learn (or simply improve it). Think – how cycling transfers to motorbike learning.

A related brain function for learning is neural reuse. Your brain can utilize the neural circuit representing one thing for another thing. Kinda like how metaphors and analogies help you understand a new concept in an abstract way.

Image by ajeofj3 via flickr


Priming: The unconscious information which nudges you

Oh, I love this word and what it entails. We are creatures that are almost always primed with something. That means, we have already received some type of information that influences our future behavior, thoughts, and information collection! The advantage of this mechanism is that priming can be used to strengthen learning and help guide the direction of learning in very subtle yet powerful ways. While attention is an explicit conscious awareness of information, priming remains largely implicit. There is a wealth of influence from the world that guides your behavior via priming. Advertisements prime you, emotions prime you, conversations prime you, etc. Almost anything can prime you to do something.

Fun fact: Did you know that priming your brain with new words while you sleep can improve your vocabulary usage?


Plasticity: Learning via structural and functional changes in the brain

The brain is very good at making sense of most information at the conceptual level. A testament to this is that any person can develop an intuitive sense and good judgment about any topic. How do you think that happens? The brain does it for you automatically. The potential of neurons to learn something new is massive. It is so massive that there should be a new word to describe how massive it is.

Good learning takes place when you optimize your surroundings, get sufficient REM sleep, and take information in small meaningful chunks. Of course, there are many more factors like diet, hygiene, genetics, motivation, etc. but we’ll focus on the cognitive side of learning. The brain can adapt and learn by forming new neural connections up until old age. The plastic nature of the brain to learn new concepts, priming, the transfer effect, and cross-sensory perception, helps the brain create robust mental ‘modules’. These learning factors improve productivity, creativity, and mental capacity in general. This trains your brain for the better.

Apart from being plastic, the brain has the ability to make neural ‘conversations’ faster by adding extra fatty layers called the myelin sheath on the nerve fibers called ‘axons’. Regular practice increases the amount of this myelin sheath and this directly improves physical skills by making them precise, faster, and energy efficient.


Feedback: Making adjustments to learn efficiently

This seems obvious but humans need feedback on what is happening, it is an essential aspect of growth. Nay, it is the most essential aspect of growth. Without feedback of some sort, we are all hollow plastic humans standing in a dark room with nothing to interact with. Feedback can be rewarding like ‘good job, now aim slightly to the left’ or it can be of a more implicit form — the sensory response you get from some action you do. Let’s say a kid throws a ball. The thrown ball lands somewhere and the kid gets feedback of it through vision. This feedback represents ‘what just happened’. Now, learning starts occurring in the brain and the kid can throw the ball differently to get some different feedback.

Another example is that of typing on a keyboard. We get feedback on the screen in the form of letters. Feedback confirms that an action has occurred, it creates a comparison between the desired state of learning and the current state of learning. One can then use this feedback to incrementally attain the desired state. For example, while learning how to speak a new language, feedback from listening to your own voice recordings would benefit in producing the correct pronunciations.

When it comes to physical performance, feedback on the characteristics of performance improve learning more than feedback about the superficial result.


Variance: Errors, trying out, nuances, changes, imperfections… variety.

This goes hand in hand with feedback, but I’d like to address this separately. Variance addresses the core aspect of brain-based learning with respect to what you try out and how you try it out. If throwing a dart at a dartboard is what you want to learn, the variance can be increased by changing the position you are throwing it from; the force with which you throw it; changing the body posture for throwing. When you try out all these variants of throwing the dart, your brain starts doing its computation by using all of this data to approximate the best way to throw the dart. Variation in what you are learning and the context in which you are learning can be even more useful if you have some prior knowledge.

Apart from the unconscious processes that take place, variance adds valuable feedback that you can use to make an informed judgment about how you throw the dart. Variance is increasing the range of different trials that you undertake to learn something. A variety of trials adds a variety of errors. These errors further help in fine-tuning your game/skill. And, to top it off, trial and error with high variance is a recipe for creative learning. There is evidence that the brain demonstrates conscious as well as unconscious error correcting mechanisms which help us judge performance and learn. However, the pathways for conscious error detection and correction are different from the pathways of unconscious error monitoring.


The scientific method: A child’s strategy of learning

This is perhaps the most incredible method to acquire information but it may need some deliberate work. A lot of the scientific method can be intuitively a part of your global learning experience. You might not realize it but you can hone this skill.

The scientific method is straightforward (with the risk of oversimplifying):

  • Make observations
  • Record observations
  • Create hypotheses with your best guestimates
  • Use hypotheses to make predictions
    * If the prediction holds true, your hypotheses about what is happening have a fair chance of being correct, collect more data and test more hypotheses.
    * If the prediction fails, your hypotheses need revision. Go back to the first step.
  • Use a concrete framework which is objective, logical and verifiable through experiments to explain your hypotheses & observations.

These experiments are a gold mine in terms of learning. When we experiment, we automatically account for variance, feedback, trials & errors.

So when you want to learn how to code or want to learn how to behave yourself, you make observations as to how it is done; you record your observations; then hypothesize that when you follow suit, a particular outcome is expected; then you try it out a few times; and then see what happens. If the desired outcome is seen, you are good to go. If it isn’t, something went wrong and you should go back to your observations and start again. These little steps aren’t really that tedious to apply in your day to day living, they become a way of thinking, a way of progressing. Ultimately, an automatic process – a habit.


We’ve looked at 7 factors which influence learning in the brain. These factors can help educators, learners, coaches, etc. use brain-based learning systems which hijack these functions for accelerated learning & growth.


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4 thoughts on “The Fundamental Science Of Brain-Based Learning: 7 Subconscious Brain Functions And Learning Processes”

  1. This is amazing information,

    I hope to work on implementing the scientific method

    I have a problem think about doing something rather than doing it

    • Thank you, do utilize the method; and if you’d like, share your story! 🙂 Do you mean to say you end up procrastinating before doing something and just think about it?

  2. Interesting article especially for me, a newbie to Psychology. It took me many days to read the whole post along the referenced articles. The theory of Kiki-Bouba was awesome. I got review about that from my colleagues and also collected the reason for their choice. It helped me to understand the Cross-sensory model better. Now, my condition is that whenever I eat something if it tastes different then I start thinking about the present physical appearance and the previous one. Thank you so much for this great post. Would you please suggest me which article/post should I read next?

    • That’s awesome to know! Really glad that you went through the referenced articles too. Looks like you found a special interest. Hope I haven’t spoilt your dining experience.
      I would recommend reading the works of Charles Spence, V.S. Ramachandran & David Eagleman. They are popular and highly influential. They also cover multiple grounds – time perception, cross-modality (and it’s applications), brain evolution, etc.

      If you are into understanding human memory you can read these 2 articles on the blog: One, Two

      Have fun learning!

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