























A problem student in the eyes of teachers since childhood, and a stupid child in the eyes of parents. For a class teacher whose eyes are full of excellent students, there is no room for an undistinguished student like me in his eyes. I have been on the road to understanding and redeeming myself, constantly exploring why others memorize words so quickly, why all online learning methods fail for me, and why everyone thinks it is my problem…
Einstein said: “If you judge a fish’s ability based on whether it can climb a tree, you will think it is stupid all your life.” In fact, everyone is a genius. It just depends on whether they can find themselves. of talent.
So, I came to the road of redemption, how to solve my difficulties in learning English, how to memorize words without results, and even how to solve my clumsy speaking problem, and even set a reasonable plan for my future learning of English.
I continue to study through the Internet, and pursue the entire process of the human brain’s memory of words and subsequent retrieval and query words, and open up the entire principle layer. In this process, I researched a large number of Wikipedia and some articles on the Internet, and summarized this method. , all reference links are at the end of this article. I am a person who has been constantly beaten, self-doubted, and extremely depressed since I was a child. I hope that the lessons I have learned from the hurt I have received can serve as a reference for others. Umbrella, hope to help more people.
The article involves as few professional terminology as possible. From my perspective, a lot of the knowledge learned in high school biology is posted directly. I will explain some complex terms in detail. If you encounter something you don’t understand, you can go to google.com found.
First, it is crucial to understand how the brain processes and remembers information. When we learn new words, the hippocampus region of the brain becomes active, helping us convert short-term memory into long-term memory. Repetition and practice strengthen these memory traces, making learning stronger.
The brain processes information through complex networks between neurons. When we learn new information, the connections between neurons (called synapses) become stronger, a process called synaptic plasticity. Repetition and practice strengthen these connections, making learning stronger.
The formation of memories involves multiple areas of the brain, among which the hippocampus is key. Not only does it help convert short-term memory into long-term memory, it also plays a role in memory retrieval. Recognizing this, we can strengthen our memory by reviewing it multiple times, rather than trying to remember all the information at once.
1. Encoding
Encoding is the first step in the memory process, which involves converting received information into a form that the brain can process. This stage determines how the information is initially understood or perceived. Encoding can be visual (something you see), auditory (something you hear), or tactile (something you feel). Effective encoding often requires attention; information without focused attention may be difficult to encode effectively into the memory system.
2. Storage
Once information is encoded, it is stored in the brain. Storage is a complex process that involves the formation of both short-term memory (also called working memory) and long-term memory. Short-term memory has a limited capacity, typically only lasting a few seconds to a few minutes, and it can handle a limited number of items simultaneously (about 7 items, give or take 2). Through repetition and association, information can be transferred from short-term memory to long-term memory, a nearly unlimited capacity storage system that can store large amounts of information for long periods of time, even a lifetime.
3. Retrieval
Retrieval is the process of recalling information from memory. This can be a spontaneous process, such as suddenly remembering someone’s name, or a conscious effort, such as trying to recall learned information during an exam. The retrieval of a memory can be triggered by a variety of cues, including sensory cues, emotional states, or thought processes.
Brain Areas and Memory
The hippocampus is a part of the brain critical to learning and memory. It is located in the medial temporal lobe of the brain and plays a key role in converting short-term memory into long-term memory and the formation of spatial memory. Here are some rules and principles about how the hippocampus affects learning and memory:
1. Encoding and transfer memory
-The hippocampus plays a central role in transferring experiences and information from short-term memory (or working memory) to long-term memory. This process often requires repetition or strong emotional connection to be effective.
2. Emotional memory
-The hippocampus is closely connected to the amygdala, which processes emotional responses. As a result, emotionally charged memories (especially those associated with fear or joy) are more likely to be encoded and retained long-term. (It turns out that it was because of this that we were happy and scared when we were children)
3. Spatial memory and navigation
4. Neuroplasticity
5. Effects of Injury
6. Repetition and Reinforcement
7. The role of sleep
The prefrontal lobe is a part of the cerebral cortex located under the frontal bones and is responsible for processing higher-level brain functions such as decision-making, planning, social behavior, personality expression, and controlling attention and behavior. The prefrontal lobe plays a key role in learning, memory, and cognitive control. Let’s learn more about the role of the prefrontal lobe and how it affects our ability to learn.
Decision Making and Planning
The prefrontal lobe is involved in complex decision-making processes and planning future actions. It helps evaluate the potential consequences of different options, allowing individuals to make decisions that benefit long-term goals.
Attention Control
The prefrontal lobe is critical for controlling attention. It helps you stay on task, ignore distractions, and switch focus when needed.
Behavioral Inhibition
The prefrontal lobe is involved in inhibiting inappropriate or unwanted behaviors and responses, which is important for social interaction and adapting to different environmental settings.
working memory
Working memory refers to the ability to temporarily store and manipulate information in the brain, and the prefrontal lobe plays a key role in this process. Working memory is essential for understanding language, solving problems, and performing complex thinking activities.
Social and Emotional Understanding
The prefrontal lobe helps interpret and respond to emotions in social situations and understand the intentions and beliefs of others. This is critical to building and maintaining relationships.
flexibility
Cognitive flexibility is the ability to adjust thinking or behavior to new, different, or unexpected situations. The prefrontal lobe enables individuals to adapt flexibly to change, allowing them to adjust strategies when faced with new information or circumstances.
Effects of damage to the prefrontal lobe
Damage to the prefrontal lobes may lead to a variety of cognitive and behavioral problems, such as difficulty in decision-making, reduced planning and organizing skills, inappropriate social behavior, reduced attention control, and increased impulsive behavior.
How to Support Prefrontal Lobe Function
The amygdala is a key structure in the brain, located in the medial part of the bilateral temporal lobes. It is part of the limbic system of the brain and is mainly responsible for processing and regulating emotional responses, especially fear and happiness. It plays a vital role in our emotional lives, memory formation, decision-making processes, and social behavior. Here’s a closer look at the function of the amygdala and how it affects learning and behavior:
Emotional processing
The amygdala is the center of emotional responses, especially the recognition of fear and threat. It can quickly process emotional information and activate the body’s stress response, such as the “fight or flight” response, to help individuals cope with potential dangers.
Emotional Memory
The amygdala plays an important role in forming and storing emotional memories. Intense emotional experiences, especially those associated with fear or joy, are more likely to be remembered. This is because the amygdala enhances the encoding process of memories associated with these emotional experiences.
Decision Making and Evaluation
The amygdala is involved in the decision-making process by processing emotional information relevant to the decision. It helps evaluate the potential emotional consequences of different choices, influencing our decision-making preferences.
Social Behavior
The amygdala is critical for the processing of social signals, including the recognition of facial expressions and the assessment of social threat. This is important for building and maintaining relationships and adapting in complex social situations.
Emotional Regulation
The amygdala also works with other parts of the brain, such as the prefrontal lobes, to be involved in the regulation of emotional responses. Good emotional regulation skills are essential for handling stress, avoiding overreactions, and maintaining mental health.
Hyperactivity of the Amygdala
When the amygdala is overactive or poorly regulated, it can lead to exaggerated fear responses, anxiety, or other mood disorders. This can be managed through psychotherapy, medication, or other interventions.
Improve emotional intelligence
Understanding the function of the amygdala can help us better understand the causes of emotional reactions and improve our ability to manage emotions by practicing emotional intelligence skills such as emotion recognition, emotion expression, and emotion regulation.
Explore some effective methods that can help us learn and retain information better. Using the right learning strategies, we can improve learning efficiency and make the learning process more efficient and effective. 🦌
1. Distributed Learning (Spacing Effect)
Distributed learning refers to spreading learning time into several shorter learning sessions rather than completing it in a single long session. This approach is more effective than intensive learning (mastering the material over a long period of time all at once). Research shows that by spreading study time over different days, information is retained better.
2. Spaced Repetition
Spaced repetition is a study technique that improves memory by reviewing study material at increased intervals of time. This method uses the principle of the forgetting curve to combat forgetting through regular review, thereby deepening the memory impression.
3. Active Learning
Active learning means learning in an actively participating way rather than passively receiving information. This can be done by asking questions, discussing, teaching others, or applying what you have learned. Active learning promotes deeper thinking and understanding.
4. Multisensory Learning
Multisensory learning refers to using multiple senses (vision, hearing, touch, etc.) simultaneously to learn information. This approach enhances memory because it provides the brain with multiple memory cues, thus promoting better information encoding and retrieval.
5. Testing Effect
Testing yourself regularly not only assesses your mastery of the material, but is actually a powerful learning tool. Through testing, you can strengthen your memory and discover gaps in your memory, thereby promoting further learning.
6. Self-Explanation
Explaining your understanding process as you learn can help you clearly understand how new information connects to what you already know. This strategy involves continually asking yourself questions as you study to deepen your understanding of the material.
7. Emotional Regulation
Learning efficiency is greatly affected by emotional state. Learning to manage your emotions and maintain a positive learning attitude can help improve learning efficiency. Positive emotions can enhance learning motivation and memory.
REM sleep
During REM sleep, there is usually no movement, which is a normal stage of sleep that occurs many times during the night. About 20% of sleep is spent in REM sleep, which is the time when dreaming occurs, mostly in the second half of the night.
Balanced diet
A balanced diet involves consuming a variety of food types to ensure that the body gets all the necessary nutrients, including carbohydrates, proteins, fats, vitamins and minerals, to promote good health and maintain proper energy levels. Here are the key components of a balanced diet and its importance to health and learning:
Regular exercise
Regular exercise has significant benefits for both physical health and brain function, including promoting the growth of new neurons, particularly in the brain’s hippocampus, a region critical for memory formation. This process is called neurogenesis and has a direct impact on improving memory and learning abilities.
How to Promote Neurogenesis with Exercise
Broca’s Area
Wernicke’s Area
Other important divisions of the brain
Each area of the brain is interconnected through complex networks and collectively participates in processing our sensory input, motor control, cognitive functions and emotional responses. Research on Broca’s and Wernicke’s areas has helped scientists gain a deeper understanding of the complexity of language and how the brain coordinates these complex tasks.
1. Encoding
2. Storage
3. Retrieval
Memory Generation Strategies
In order to improve the efficiency and persistence of memory when memorizing words, you can use the following strategies:
Knowing the formation of memory above, let’s design a suitable method for memorizing words.
1. First acquaintance stage
2. Deepen understanding
3. Consolidate memory
4. Practical application
5. Feedback adjustment
6. Use technology to assist
I have always thought that it is difficult for me to remember a word. All the previous information tells you that you need to read the word silently 20 times and spell it 20 times to remember it. However, I feel that I still forget it after reading it silently a hundred times. I agree. It’s because the nerve cells in your hippocampus are not strong enough.
But if you think about it carefully, the brain’s memory is actually clear. In fact, many times, it’s not that we have poor memory when it comes to learning, but that we can’t see the logic and connections behind the knowledge we learn. As a simple example, please pause reading now and think about what you had for lunch yesterday.
You will find that you can remember it if you think about it for a while, right? Then look at how you think about it. Do you first think about what I did around noon yesterday, who I was with, what I said, where I went before eating, or what I did in the afternoon, or what I did. Where should I go to eat before the incident? Then you remember what you had for lunch.
Excuse me, have you memorized what you had for lunch yesterday? No right. So how do you remember what you had for lunch yesterday? In fact, it is a logical connection. For you, what you had for lunch is not an isolated piece of information, but an event connected by many pieces of information and meaning. This information constitutes the multiple dimensions and connections of lunch, forming a path in your mind for inquiry. This is the memory retrieval process above.
So I understand that the first key to truly learning a word is the information dimension of the word, which is why we need this word and the logic behind it.
Secondly, in fact, when memorizing words, many teachers or APPs have the Ebbinghaus forgetting curve.
Baicizhan is a good example. I was using Baicizhan to memorize words. After memorizing them for a while, I found that I couldn’t remember anything. Memorizing them turned into memorizing the pictures corresponding to the words and directly selecting them. Such repetition is actually very inefficient.
In my opinion, only by ensuring the information dimension, adding the information dimension appropriately, or simply repeating it, can the brain internalize this structural information.
Thus, we know the three key steps to ideally learning a word
On the basis of these theories, I propose two methods that are easy to practice. The second method is the best method in my opinion, but practicing this method requires additional conditions. The first method is a method with lower practical cost.
First: Use word software with multiple contextual examples and multiple example forms
Based on the theory I mentioned above, what kind of word memorization software do you think can achieve the ideal effect?
First of all, this word software must provide multiple example sentences in different contexts, because different contexts are the information dimensions and connections we hope to generate.
Secondly, this word software needs to provide examples in different forms as much as possible. For example, if the example is an example from a novel, we can check the context of the novel, or the example is from a sentence in a speech, and we can listen to the complete sentence. The speech and even the example sentences come directly from a certain sentence in the video, and we can view the video directly.
From the information dimension, video > pure listening materials > novel examples > single example > no example. Because video contains the most information, including tone, intonation, facial expressions, dynamic images and complete contextual situations. Even if we forget the meaning of the word after memorizing it, we can still recall the meaning by thinking back to the video we watched. Just like we remembered the lunch we had yesterday.
Based on these points, here is a software combination that allows you to listen to English easily without memorizing words.
Second: Use word software with memory function and complete definitions + daily input materials
This method proposes a simple but crucial change, which is to directly select an English book to start reading, and then when encountering words that you do not understand, input them directly into Solidmemory developed by the author /home?ref=ran-blog.com). Do fixed word exercises every day to consolidate. You can also add examples to the words you enter. At this time, you can add examples directly from the book.
In fact, the principle of the memory part also uses the Espenho curve, but in this method each word does not exist independently. For learners, words are actually acquired in their complete context. From this perspective, the information dimension of each word itself is very sufficient.
However, this software is paid. If you want a free alternative version, I suggest you use a similar concept, and then directly input the new words we encounter from books every day, such as not memorizing words or scallop words. Word software with complete memory functions and definitions.
But there are two additional conditions for using this method:
So at this point, I finally have a detailed plan for my vocabulary memorization and subsequent design.
First, here are the things you must do every day:
Choose efficient tools
When choosing tools, focus on simplicity and efficiency and avoid overreliance on multiple tools. Choose tools that can directly improve learning efficiency and pay attention to their usage methods and steps.
此内容由惯性聚合(RSS阅读器)自动聚合整理,仅供阅读参考。 原文来自 — 版权归原作者所有。