Thursday, December 16, 2010

Phase III Projects

Endocrine System-Memory Game
(see us for cards)

The Brain-Coloring Book


Neural Communications-Power Point


Nervous system-Videos


      • **favorite** All systems  

      • Nervous System

      • The Peripheral Nervous System (Hierarchy/flow chart)


      • Central Nervous System (Power point)

 **Overall question: Explain the differences and similarities between the systems and use personal examples, not mentioned in the video, to enhance your explanation.

Phase IV

1. Game of memory


a. Includes vocabulary and questions from the unit

b. Involves reading, visualization, and hands on learning styles

c. Allows students to learn definitions and review questions while being intrigued in a competitive game

d. Used at the beginning of class

2. Coloring book

a. Involves visualization and hands on techniques for students to become familiar with the parts, systems, and functions of the brain

b. An entertaining activity that gives a visual picture of parts of the brain and explanations of their functions

3. Power point and note taking

a. Lectures and note taking explains the neural communication section

b. Involves visualization, lecturing, note taking, and technology learning strategies

c. Embraces informational notes while questioning students’ understanding through critical thinking questions

4. Watching videos and a critical thinking question

a. Utilized as visual aids for the students’ understanding of the nervous system

b. Provides information that pertains to real life situations and explains how people function

c. The critical thinking question requires students’ to relate the information from the video and earlier activities to themselves and at a higher thinking level

Phase III

Through our research and data collection of the neuroscience chapter, we were able to learn and understand how the human body works and how humans learn. Our goal was to create a way to learn neuroscience without having to memorize the information. Through our research, analysis, and conclusions we were able to develop four effective learning techniques for Neuroscience.


According to my group’s data collection, the most effective learning strategy to utilize for our classmates would be having lectures and taking notes. To find this answer, my group utilized the survey method. Since my group was split between two class periods, we were able to not only receive information from one period, but from two. This was beneficial because the survey was more representative of the students taking AP psychology. We went around the two class periods and gave each person a sheet of paper. The paper stated: You learn and retain information best through… and the following choices were: 1. Memorization/reading; 2. Lecture and notes; 3. Visual aids; 4. Hands on activities or; 5. Technology. This survey was the most accurate way of collecting this type of data because it gave the participants the amount of time needed to think about and answer the question. Also, since everyone received the same question and choices, the data was consistent. In addition, because the experiment involved more participates than one class period, the data was more accurate because the survey was more representative of the targeted population. After receiving all of the votes, we were able to count the amount of people who preferred each learning strategy. This gave us the results that eighteen people preferred learning by lectures/notes, fifteen people learned the best from doing hands on activities, seven students favored learning through technology, seven other people enjoyed having visual aids, and reading/memorization was the ideal way of learning for six classmates.

By looking at the results from our experiment, we realized that people learn all different ways. There really is no certain, correct way to learn information without memorization. We did, however, discover that most people prefer to listen to lectures and take notes. By understanding this information about the types of learning strategies in relation to my classmates, we were able to appreciate all of the different techniques. We think that schools should not just target one particular learning strategy, even if it is the most popular. We believe that the education systems should utilize our surveyed primary learning strategy the most (the lecturing and note taking), but the other learning techniques should not be forgotten. We think the best way to do this in an education system is to pick activities that have a connection to several of the learning techniques.

Every individual activity we created for the neuroscience unit uses multiple learning strategies. We made sure each of the activities correlated precisely with the neuroscience chapter. We also created the activities to go in a specific order. To start the chapter, a game of memory will be used. The game will include definitions and questions found in the book. This will allow the students to grow familiar with the information before diving into the critical analysis of the whole chapter. The game will enhance the student’s general knowledge and be a fun activity that will hold everybody’s attention. Our memory game correlates directly with the neuroscience unit because there are a lot of definitions and body parts that one needs to know. This game will utilize the reading, visualization, and hands on learning strategies.

The next activity would be coloring in a brain. This promotes the learning of the different sections of the brain. This would be a once and done activity, but allows the students to become familiar with the different sections of the brain and their functions. The coloring book applies the visualization and hands on techniques.

The third in class teaching method would involve a power point and note taking. This method includes several learning strategies. This particular activity uses the most popular learning strategy (lecturing and note taking) accurately. It involves visualization, lecturing/note taking, and technology.

The last activity we planned for a class to effectively learn the neuroscience chapter involves videos and an overall, critical question. The video will show how the information pertains to real life. The critical question will require the students to use the information they learned in the earlier activities and consider outside, relatable sources to create a high level answer. The videos and question involve a visual aid for the students. Our survey and collected data enabled us to create these four learning strategies.

After analyzing the results from my group’s data collection through a survey, we were able to narrow down our learning strategies into four different learning techniques. We discovered that every student learns differently; this discovery enhanced our ability to effectively create learning techniques. Because the neuroscience chapter was divided into four sections, we used a different learning technique for each section, which we thought would be the most effective way of teaching.

Our first technique is a game of memory; our memory game focused on the endocrine system with vocabulary and questions included in this section. The matching game of memory involves many different learning styles, including reading, visualization, and hands on. This activity would be used first in order to grasp the students’ attention with a fun childhood game. Memory has been around since 1959; it is a child’s game used to enhance memory and partnerships. Similarly, our game of memory allows the students to become familiar with the information before diving into the in-depth and critical analysis of the entire chapter. We believe that Memory is a very effective approach to the neuroscience chapter. It opens the students’ minds and prepares them for further study. Memory is the best technique when learning the endocrine system of the neuroscience chapter because it allows students to learn definitions and review questions while being intrigued by this competitive game.

Our second technique is a coloring book; our coloring book promotes learning the different parts of the brain, different systems, and their functions. The coloring book involves visualization and hands on techniques. It allows the student to become familiar with the brain. The Little Folks Painting Book, credited as the first coloring book, was published in 1879; it was believed that students benefit from art education by means of enhancing their conceptual understandings, developing their cognitive abilities, and improving skills that would be useful in finding a profession. Coloring books were used many decades ago, and they are still effectively used today. Although a coloring book seems like a childish activity, this method is most effective because a student will easily and enjoyably learn the parts of the brain and their functions. A coloring book is the best method to use in order to learn about the brain’s parts and functions because it is an entertaining activity that gives a visual picture of parts of the brain and explanations of their functions.

The third technique involves a power point and note taking; our power point and note taking explain the neural communication section of Neuroscience. From our survey, lecturing and notes taking had the highest votes; therefore, we ensured that this learning technique was included into our project. A power point involves many learning strategies, including visualization, lecturing, note taking, and technology, which explains its effectiveness. Lecturing and note taking are strategies that have been traced back to medieval universities in the 1350s, while the appreciation and improvements of power point began in 1987. Combined, these methods have been known to successfully advance intellectual studies. A power point is the best and most effective way to learn about neural communications of Neuroscience because the power point involves informational notes, while questioning students’ understanding through critical thinking questions. Additionally, power points involving lecturing and notes are the favored learning strategy of AP Psychology students.

The last technique used to promote the understanding of Neuroscience involves watching videos and answering an overall, critical thinking question. The videos and critical thinking question focus on the nervous system. They are utilized as visual aids for the students’ understanding of the nervous system. The videos provide information that pertains to real life situations and explains how people function. Along with the video, the critical thinking question requires the students’ to relate the information they learned from the video, earlier activities, and to themselves at a higher thinking level. Since created in 1867, videos have become both informative and enjoyable; therefore, watching our videos and discussing the overall question is the best and most effective way of learning about the nervous system because it presents relatable information that requires advanced thinking. Additionally, the four videos we have are different types: the first video has a fun jingle that explains all of the systems; the second video quickly explains the nervous system; the third video explains the peripheral nervous system through a hierarchy/flow chart; and the last video explains the central nervous system through a lectured power point. So, the different videos also provide further types of learning techniques to advance an individual’s understanding of the nervous system. Overall, the videos are easily understood and are very relatable.

Our survey allowed us to gather information about AP Psychology students’ best techniques of learning. By creating and utilizing a survey, we were able to effectively understand how everyone learns differently, and were further able to create learning strategies for neuroscience. We believe that our four different learning techniques for each section were the best and most effective ways to learn neuroscience.

The learning strategies we used were videos, a memory game, a coloring book, and a power point. We chose these learning strategies because we wanted to incorporate many types of learning. After we too k our surveys, we realized the majority of students learn best through visual presentations, verbal lectures, and active games. By using the videos, games, and power point, we were able to please all different kinds of strategies and help the student internalize and learn the information. Our learning strategies were successful because of many different reasons. We tried to use repetition of important terms in order to make sure the specific concepts were remembered. Throughout the different topics covered in our learning strategies, the information was forced into long term memory because of the constant repetition. In the videos we chose, my parents were able to remember a lot from the first one because the information was set to a little jingle that made the information easier to remember. In addition, the coloring book helped teach the different parts of the brain and their functions. In the memory game, there were important terms that helped make learning more fun through a little game and finally, the power point helps students who prefer lectures and was used to help the students think critically. I think over all our learning strategies were very successful and effective in enforcing important topics.

After reviewing the learning strategies, we only found one area that we could maybe improve. This area we can improve is to try to have to students do some worksheets along with the various activities to help them internalize the information more. We think we can make another lecture and have a power point to go along with. Then we could print out the power point and have the students take notes during the lecture. When a student is listening and taking notes during a lecture it helps increase his or her understandings. By having the students take notes, it will keep their attention throughout the lecture and will also allow them to put everything in their own words to help give them a better understanding. In addition, notes will help put the information into long term memory. Another benefit from note taking is the student can pick the information that he struggles with and go more into depth with the topics. Then with the terms the student understands, he can focus less attention on them. Then after the lesson we think it would be beneficial to hand put worksheets to help the students discover an understanding on their own and further their research. By giving out these worksheets it will allow the students to explore topics they are interested in. We did have a few critical thinking questions, but we could always add more because it will help the students think hard and relate to their own lives. We believe the learning strategies we chose were successful, but can always be improved through these things.

In our strategy we tried to use learning, thinking, memory, and language effectively in order to give the best understanding of neuroscience. First, we used learning by making the students be interactive with the activities to help them internalize and master the information. Next, we used thinking by proposing some critical thinking questions and with the memory game and the power point. In addition, we used memory through all of our strategies: the memory game, the videos, the coloring book, and the power point. The repetition of these topics throughout the activities helps stress the important points. In the memory game, the students not only need to remember where the pieces are but also which cards match each other. This will help them learn what each term means. Finally, we also used language to help convey the messages we wanted. We tried to use intelligent language that pertained to the subject that was being defined. We used a lot of psychology terms to help enhance the knowledge base of the students. We wanted to make sure we defined each term very accurately and to provide the best understanding to the students. We also wanted to try to open up the student mind and enhance their psychology vocabulary at the same time as making it easy to remember. Throughout this project we have discovered some of the best learning strategies to use under different learning styles. We really tried to break down the complicated subject to make things easy to remember and understand. We used various techniques to accomplish this ultimate goal.

The methods of learning, thinking, memory, and language play a crucial role in understanding Neuroscience. Neuroscience focuses on how the body and brain enable emotions, memories, and sensory experiences. Obviously, this relates to every person, therefore, it is important for people to understand the concept. People want to understand the best way to learn, how their brain thinks, how their memory functions, and the importance of language. This helps people to be successful, not only in school, but in their daily lives. In order to fully understand Neuroscience, it is crucial to not just memorize the information. Students should try to understand what the concepts mean, why something happens, and how to differentiate the terms in Neuroscience.

By understanding how one learns, it is easier to understand Neuroscience. Learning about the different strategies, opens up new ways and strategies to learn. It teaches us how our brain works and processes information. For this reason, we can be strategic, thoughtful, and understanding, instead of memorizing different pieces of information. It teaches us, as learners, to understand the processes we go through during studying and test-taking. It also helps us learn about different situations in our daily lives and allows us to understand them. Instead of learning through memorization, which is not truly learning, we now know to utilize learning strategies which suit us, as individuals, best. It is important for a person to realize which learning strategy is best for himself or herself because then he or she does not waste time trying to learn ineffectively. Knowing how to personalize study habits can determine how much time is needed to learn the material.

This knowledge helps us to not only learn Neuroscience but other aspects of Psychology as well. This knowledge affects psychology because we learn how our minds function. It teaches us different learning strategies and how to organize notes and understand concepts. More importantly, it teaches us to make personal connections with the material. With personal connections, the information becomes easier to understand because the concepts become more familiar and easier to remember. In addition, by researching and understanding different learning methods, we are able to use them in our future studies. By using a survey, we learned the popular and most successful ways to study. Also, through this project we discovered successful learning methods that we can incorporate into our own study habits.

Our learning strategy is not necessarily the best strategy for everyone as individuals because everyone learns differently. Although, we believe our groups learning strategies are the best as a whole because they include many different styles of learning. As previously stated, we researched all different types of learning strategies in order to find the most popular and successful methods for students. We created a survey that included strategies that would fit all different types of learners and then we surveyed own classmates. Our classmates, being AP students, we are characterized as studious and conscientious about their grades. This means that the ways our classmates prefer to study are preferable study ethics. Then, we incorporated all of the useful and popular methods into our four class activities. In addition, our learning strategy is overall effective because we split up the chapter into sections. Instead of receiving all the information at one time, people can learn pieces at a time. This provides people with a simpler way understand Neuroscience to a greater extent. Overall, because we included numerous learning strategies into our four class activities they were extremely effective to AP Psychology students as a whole.

Tuesday, November 23, 2010

Phase Two Part VI

Part 6: (Laura)
Five ways to Teach:
1.       Question: How does neuroscience effect psychology and how humans behave?
2.       Movie on neuroscience
3.       Lecture/notes on neuroscience
4.       Hands-on activity with neuroscience
5.       Class discussion on neuroscience


Phase Two Part V


Cognition- all the mental activities associated with thinking, knowing, remembering, and communicating. For example, learning a new language, like Spanish. I need to think about what I am saying by the stuff I already know and remember how to say it properly, and then communicate it. (Molly)

Concept- a mental grouping of similar objects, events, ideas, or people. For example, plants are organized into grouping depending on their color and/or type. (Molly)

Prototype- a mental image or best example of a category. Matching new items to the prototype provides a quick and easy method for including items in a category (as when comparing feathered creatures to a prototypical bird, such as a robin). For example, other types of birds such as hawks. (Molly)

Algorithm- a methodical, logical rule or procedure that guarantees solving a particular problem. Contrasts with the usually speedier but also more error-prone-use of heuristics. For example, Kraft mac&cheese directions or directions on how to assemble a new patio set. (Molly)

Heuristic- a simple thinking strategy that often allows us to make judgments and solve problems efficiently; usually speedier but also more error-prone than algorithms. For example, telling someone to look at the email to discover what the directions are from the coach. (doesn’t give the exact directions but tells you how to discover them). (Molly)

Insight- a sudden and often novel realization of the solution to a problem; it contrasts with strategy-based solutions. For example, finding the answer to a really hard math equation. (Molly)

Confirmation bias- a tendency to search for information that confirms one’s preconceptions. For example, researching the same item that you just bought to confirm that you actually did buy it at the lowest price. (Molly)

Fixation- the inability to see a problem from a new perspective; an impediment to problem solving. For example, having a set way to bake a certain food and not changing it even though people give suggestions. (Molly)

Mental Set- a tendency to approach a problem in a particular way, especially a way that has been successful in the past but may or may not be helping in solving a new problem. For example, being persistent in the way you study for a test. This strategy may not work for other classes. (Molly)

Functional fixedness- the tendency to think of things only in terms of their usual functions; an impediment to problem solving.  For example, my mom asked me to bring in fire wood.  I knew we had a fire wood holder thing that I could use but I could not find it.  I searched everywhere for twenty minutes until I finally found it when in reality I could have just used a blanket or a cloth to put the wood in since they both essentially do the same thing, but I had my mind set. (Chrissy)
Representativeness heuristic- judging the likelihood of things in terms of how well they seem to represent, or match, particular prototypes; may lead one to ignore other relevant information.  For example, if I meet someone with a laid back attitude and long hair, I might assume they are Californian, whereas someone who is very polite but rigid may be assumed to be English. (Chrissy)
Availability heuristic- estimating the likelihood of events based on their availability in memory; if instances come readily to mind, we presume such events common.  For example, a person argues that cigarette smoking is not unhealthy because his grandfather smoked three packs of cigarettes a day and lived to be 100. The grandfather's health could simply be an unusual case that does not speak to the health of smokers in general. (Chrissy)
Overconfidence- tendency to be more confident that correct, overestimate the accuracy of one’s beliefs and judgments.  If one goes into a test overconfident and doesn’t really prepare because they think they know everything, their results will not be favorable for them usually. (Chrissy)
Framing- the way an issue is posed; how an issue is framed can significantly affect decisions and judgments.  For example, if statistics are posed in a more positive manner, people will respond better.  If a person is going into surgery the doctor will tell them that 99% of people recover perfectly instead of 1% do not recover. (Chrissy)
Belief bias- tendency for one’s preexisting beliefs to distort logical reasoning, sometimes by making invalid conclusions seem valid or valid conclusions seen invalid.  For example, someone my say that some good ice skaters are not professional hockey players, but will reject an assertion that some professional hockey players are not good ice skaters which is possible although seems unlikely. (Chrissy)
Belief perseverance- clinging to one’s initial conceptions after the basis on which they were formed has been discredited.  This often causes conflicts.  For example, my sister is queen of this.  She doesn’t like to admit she is wrong so she will continue to insist that her belief is right no matter if she is or isn’t.  This leads to a good argument between us because I tend to do the same thing. (Chrissy)
Artificial intelligence- the science of designing and programming computer systems to do intelligent things and to simulate human though processes like reasoning, learning, and understanding language.  Industrial robots that can sense their environment. (Chrissy)
Computer neural networks- computer circuits that mimic the brain’s interconnected neural cells, performing tasks like learning to recognize visual patterns and smells (Chrissy)
Language-our spoken, written, or signed words and the way we combine them to communicate meaning. Example: every culture, continent, group of people, and even organisms have their own languages. They communicate information from one to another in a form of language. Each language is not the same, but it is used for the same purpose of communication. (Nina)
Phoneme-in a spoken language, the smallest distinctive sound unit. Example: the k sound in the words kit and skill. Even though most native speakers don't notice this, in most dialects, the k sounds in each of these words are actually pronounced differently: they are different speech sounds. (Nina)
Morpheme-in a language, the smallest unit that carries meaning; may be a word or a part of a word (such as a prefix) Example: In Spanish, the prefix of a verb is kept when changing tenses. When translating “comer”, which means to eat, into different verb tenses, the “com” stays the same to keep the meaning of the word as the endings change: como, comes, come, comemos, coméis, comen, etc. (Nina)
Grammar-in a language, a system of rules that enables us to communicate with and understand others. Example: Knowing the grammar of a language allows people to communicate and understand each other. If a sentence in Spanish reads: Corrió rápidamente a la tienda, a person who understand the grammar of the language would know it says: He ran fast to the store. (Nina)
Semantics-the set of rules by which we derive meaning from morphemes, words, and sentences in a given language; also, the study of meaning. For example: a semantic rule tells us that adding –s to make means that it is happening in present tense. (Nina)
Syntax-the rules for combining words into grammatically sensible sentences in a given language. Example: In English, if the sentence read: I will go to the store at seven, in Spanish it would translate to: Voy a ir a la tienda a las siete. In English, the noun (person) needs to be stated to determine who is doing the action. In Spanish, the noun (or person) doing the action does not need to be stated because the ending of the verb indicates that person. (Nina)
Babbling stage-beginning at 3 to 4 months, the stage of speech development in which the infant spontaneously utters various sounds at first unrelated to the household language. For example, a few months after my cousin was born, he constantly uttered “goo goo gah gah”.  (Laura)
One-word stage-the stage in speech development, from about age 1 to 2, during which a child speaks mostly in single words. After my cousin passed the babbling stage, he could only speak simple words such as “mamma”. (Laura)
Two-word stage-beginning about age 2, the stage in speech development during which a child speaks mostly two-word statements. Because my cousins have a cat, at this stage my younger cousin always said “black cat”. (Laura)
Telegraphic speech-early speech stage in which the child speaks like a telegram- “go car” –using mostly nouns and verbs and omitting “auxiliary” words. When hungry, my cousin always asked for food saying he “want food”. (Laura)
Linguistic determinism-Whorf’s hypothesis that language determines the way we think. For example, a person that speaks two dissimilar languages, such as English and Chinese, could take the same personality test in each language and score differently. (Laura)

1.        Why does everything covered in chapters 8, 9, and 10 fall under the field of cognitive psychology? Provide three different examples of how it does (one from each chapter). (Molly)           
          
Everything covered in chapter 8, 9, and 10 are all under the field of cognitive psychology because this field studies all mental processes including how people think, perceive, remember and learn. Since most of the body’s functions are dependent on the brain to control every part of them, cognitive psychology is a major part to understanding this concept. For example, in chapter 8, we learned about conditioning. This requires someone to behave a certain way and receive a certain response. This is related to cognitive psychology because this process includes remember what the response was to a certain behavior. We think about what happened last time we did something similar to what we were about to do. In chapter 9, there was a lot of information about memory and encoding information. This knowledge is relevant to cognitive psychology because this field deals with thinking, remembering, and learning the facts. Short-term and long-term memory is related to the field of cognitive psychology because it explains how the brain processes information, what it takes to have information retained, and why the brain loses information quickly after it is read. Chapter 10 deals with prototypes, insights, and problem solving. This is under the field of cognitive psychology because it involves the brain and how it perceives, categorizes and organizes information.  
2.       Create a category hierarchy to organize a concept of your choosing (DO NOT use the one in the book). Make sure you label a prototype as well. (the best thing to do is to create one for neuroscience).(Nina)


3.       Explain the relationship between functional fixedness and problem solving. Provide an example that illustrates the relationship (this should be no more than 2 sentences). (Nina)Functional fixedness (the tendency to think of things only in terms of their usual functions) is an impediment to problem solving. A common example involves a group of people who want to enter a locked room when they have no key, and they think that using the key is the only way to open the door. A solution often arises when somebody thinks to insert a credit card between the door and the door jamb, releasing the lock.
4.      How can you use what you know about thinking and language to improve your learning strategy?  Provide two examples. (Chrissy)
One way we can improve our learning strategy is to organize our information in a way that is pleasing to the brain.  Meaning that it flows, looks nice, and makes sense.  Chunking our information will help because grouping the items can make it easier to learn.  In addition, we could put the information to a jingle.  For example, I still remember the Canada Provinces because they were put to the tune ‘William Tell Overture’ and I learned it in sixth grade.  I think if we display our information into an easy and organized fashion, it will help.  Also, if we find easy way to remember things like by using a mnemonic device. 
5.       How can you use your knowledge of language acquisition and the way that we read, speak, and think to help create your learning strategy? (Laura)       Our words influence the way we think. People use language when classifying and remembering. Language’s power to influence thought makes vocabulary building a crucial part of education. To expand language is to expand the ability to think. In young children, thinking develops and in hand with language. That is why teaching new words teaches new ideas and new ways of thinking. Language transforms experience, fuels imagination, and links people to one another. This means that to create a learning strategy, it is crucial to provide new vocabulary in order to expand thinking and initiate a new way to think.
6.       Summarize how you will use thinking an d language in your learning strategy below. Make sure to include at least 6 different ways you are going to utilize knowledge. (Laura)As previously stated, language plays a huge in the way we think. It influences what type of thinking and how experienced our thinking is. Therefore, language will play a role in our learning strategy. New terms will be learned so that new thinking will take place and expanded. Ways in which we could include language in our learning strategy is a discussion between classmates, lectures, taking notes, hands-on activities such as games, reading, and projects. All of these learning strategies provide different opportunities for language to be a reoccurring theme in the class. A discussion and activities allow for students to actually use the language and terms. Lectures call for the students to repeatedly listen to the language; projects and notes let students constantly see and use the language. Finally, reading calls for students to continually see and comprehend new language and terms.

Phase Two Part IV

Memory- the persistence of learning over time through the storage and retrieval of information. (Molly)

Memory loss- can be as mobile as before and remember things by looking at old photos and remember who people are. However people like this do not know the day of the week or remember short-term things. (Molly)

Memory feats- people who can remember large amounts of information. (Molly)

Memory like a computer?- Some ways our memory is like a computer’s information-processing system. To remember any event requires that we get information into our brain (encoding), retain that information (storage), and later get it back out (retrieval). First a computer translates input into an electronic language, just like the brain encodes information into a neural language. (Molly)

How neuroscience fits into memory- neuroscience fits into memory because neuroscience studies the brain. It studies how information is transferred around and stored. Memory relies on the function of the parts of the brain.  (Molly)

Sensory memory(page 354) include all types- the immediate, initial recording of sensory information in the memory system. An iconic memory is a momentary sensory memory of visual stimuli; a photographic or picture-image memory lasting no more than a few tenths of a second. An echoic memory is a momentary sensory memory of auditory stimuli; if attention is elsewhere, sounds and words can still e recalled within 3 or 4 seconds. (Molly)

Long-term memories (page 355) include all storage- The relatively permanent and limitless storehouse of the memory system. Our brains are not like attics, which once filled can store more items only if we discard old ones. Our capacity for storing information permanently in long-term memory is essentially unlimited. (Molly)

Short-term memory (page 355): our short-term memory span for information just presented is limited. A seconds-long retention of up to about seven items, depending on the information and how it is presented. Unless you rehearse the information to encode it for long-term storage, it is hard to recall it. Short-term memory is not only limited in duration, but also in capacity. (Molly)

The role of emotion in memory: emotion has a powerful impact on the things we can remember. We learn from past experience and reinforcement. (Molly)

The steps of encoding: some encoding is automatic processing (little of no effort that encodes an enormous amount of information about space, time and frequency), while others are effortful processing (requires repetition and attention). Mnemonic devices depend on the memorability of visual images and of information that is organized into chunks. Organizes information into chunks and hierarchies also aids memory. We first record-to-be-remembered information as a fleeting sensory memory, from which it is processed into a short-term memory bin, where we encode it for long-term memory and later retrieval. (Molly)
Ebbinghaus’ retention curve-Ebbignhaus found that he more times he practiced a list of nonsense syllables on day 1, the fewer repetitions he required to relearn it on day 2, said simply, the more time we spend learning novel information, the more we retain it. (Nina)
Spacing effect-the tendency for distributed study or practice to yield better long-term retention than is achieved through massed study or practice. (Nina)
What we encode-When processing verbal information for storage, we usually encode its meaning. We tend not to remember things exactly as they were. Rather, we remember what we encoded. (Nina)
Kinds of encoding-                Visual encoding-the encoding of picture images
                Acoustic encoding-the encoding of sound, especially the sound of words
                Semantic encoding-the encoding of meaning, including the meaning of words (Nina)
Levels of processing-Processing a word deeply-by its meaning (Semantic encoding)-produces better recognition of it at a later time than does shallow processing by attending to its appearance or sound. (Nina)
Imagery and memory-Imagery is mental pictures; a powerful aid to effortful processing, especially when combined with semantic encoding. People remember words that lend themselves to pictures images better than we remember abstract, low-imagery words. Two encodes are better than one. (Nina)
Mnemonics-memory aids, especially those techniques that use vivid imagery and organizational devices. (Nina)
Ways to organize information for encoding- Organizing information for encoding involves grouping them in chunks or hierarchies.  Chunking occurs naturally and automatically; it is organizing items into familiar, manageable units. A hierarchy is an arrangement of items to aid memory. (Nina)
Memory trace- Engrams are a hypothetical means by which memory traces are stored as biophysical or biochemical change in the brain (and other neural tissue) in response to external stimuli. Our sensory memory, short-term memory, and long-term memory retain information for varying time periods.  Our physical memory trace gradually decays; memories do not reside in single, specific spots. (Nina)
Iconic memory-a momentary sensory memory of visual stimuli; a photographic or picture-image memory lasting no more than a few tenths of a second. (Nina)
Echoic memory- the use of auditory sensory images; if one’s attention is elsewhere, sounds and words can still be recalled within 3 or 4 seconds while it still lingers in one’s mind’s echo chamber.  For example, sometimes when my mom is talking to me, I will be texting or looking on Facebook and she will always say, “Are you listening to me?” and I will have to quickly think of the things I selectively heard and repeat them so she will believe that I was paying attention to her.  (Chrissy)
Long-term potentiation (LTP)- an increase in a synapse’s firing potential after brief, rapid stimulation; believed to be a neural basis for learning and memory association.  For example, a mouse is placed in a pool of murky water; it will swim around to find the hidden plat form to climb out.  With repetition the mouse will learn to do this faster with fewer mistakes.  It does this with the help of visual cues around since it cannot smell or see the platform. (Chrissy)
Amnesia- the loss of memory.  For example, a girl got in a car accident and hit her head.  Now she cannot retain any new information and still thinks it is the same day that it was when she got in to the accident a few years back (Chrissy)
Implicit memory vs. explicit memory- implicit memory deals with the fact that a person with amnesia can learn how to do something (procedural memory) where as a explicit memory means that they may not know and declare that they know (declarative memory).  It is memory of facts and experiences that one can consciously know and declare. (Chrissy)
Hippocampus- (noticed in autopsies of amnesia patients) a limbic system structure that keeps track of explicit memories of new names, images, and events  (Chrissy)
Recall- the ability to retrieve information not in conscious awareness.  For example, on tests like the PSSA’s I will recall information that I learned years ago that I didn’t even know that I remembered. (Chrissy)
Serial positioning effect- our tendency to recall best the last and first items in a list, then try to remember the ones in the middle (Chrissy)
Recognition- a measure of memory in which the person need only identify items previously learned, as on a multiple choice test.  For example, after meeting so many people through field hockey I often recognize people at every field hockey event I go to but it takes me a little bit until I can identify them and make the connection (Chrissy)
Relearning- a memory measure that assesses the amount of time saved when learning material for a second time.  If you learn something and forget it, when you go to relearn it, you will learn it quicker the second time.  For example, at the beginning of every year in my math class that I’m taking, we will relearn the material that we learned the previous year just to make sure we remember and understand it.  It takes remarkably less time. (Chrissy)
Priming- the activation of particular associations in memory, often unconsciously.  “wakening associations”. (Chrissy)
Mere-exposure- the phenomenon that repeated exposure to novel stimuli increases liking of them. (Laura)
Déjà vu- that eerie sense that “I’ve experienced this before.” Cues from the current situation may subconsciously trigger retrieval of an earlier experience. (Laura)
Mood congruent memory- the tendency to recall experiences that are consistent with one’s current good or bad mood. (Laura)
Proactive vs. retroactive interference- Proactive interference is the disruptive effect of prior learning on the recall of new information and retroactive interference is the disruptive effect of new learning on the recall of old information. (Laura)
Repression- in psychoanalytic theory, the basic defense mechanism that banishes anxiety-arousing thoughts, feelings, and memories from consciousness. (Laura)
Misinformation effect- incorporating misleading information into one’s memory of an event (Laura)
Source amnesia- attributing to the wrong source an event that we have experienced, heard about, read about, or imagined. Source amnesia, along with the misinformation effect, is at the heart of many false memories. (Laura)
Binocular Cues- depth cues, such as retinal disparity and convergence that depend on the use of two eyes (Laura)
Monocular Cues- distance cues, such as linear perspective and overlap, available to either eye alone (Laura)
1.       Consider everything you know about the way memory works in the human brain. How can you tap into that in order to construct your learning strategy? Provide at least 5 different ways to use memory to create an effective learning strategy? (Molly)
To effectively retain information into your memory, there are several different learning strategies. For example, visual encoding (or being able to see information and retain it in your memory) can be utilized by posters, PowerPoints, pictures, demonstrations and videos. Acoustic encoding (meaning being able to retain information through audio) can be useful in learning by doing lectures or even listening to songs about the information. Semantic encoding of information can be helpful for learning because it involves the meaning of words. For example, reading a book or reading over notes would be examples of semantic encoding.
2.        How is the human mind faulty in remembering information? Explain how that could impact the construction of your learning strategy (provide 3 examples). (Nina)Short-term memory is limited not only in duration but also in capacity. Our short-term memory typically stores just seven or so bits of information.  Also, short-term memory can be limited because of short-term memory decay. Unless rehearsed, verbal information may be quickly forgotten. People who like to cram and study the period before a test will have problems retaining the information because of short-term memory. Additionally, despite the brain’s vast storage capacity, we do not store most information with the exactness of a tape recorder. Rather, forgetting occurs as new experiences interfere with our retrieval and as the physical memory trace gradually decays. This could impact learning because as more information is being learned, other information is being forgotten. Also, iconic memory (a momentary sensory memory of visual stimuli) only allows us to recall a scene in amazing detail for a few tenths of a second. If a photograph was used to when being taught certain information, the detail of the scene is remembered for no more than a few tenths of a second. This method is very difficult when trying to retain information by using a picture-image. There are many faults in the human brain when remembering information.
3.       What kinds of strategies can you use to study in order to help you remember information better for the AP exam? (Chrissy)
There are many strategies that can be used to study.  First of all, when we learn something we get information into our brain which is called encoding.  Then we retain the information called storage and then we later recall this information called retrieval.  In order to learn the information we can use hands on activities like games as well as critical thinking to go beyond the text book and what is written.  We can also explore the subject into a deeper matter and trying to find real life examples to make it personal.  Associating certain subjects with different things will make it easy to remember for example chunking, making a song or a little rhyme can help remember information.  In addition, lectures and note taking is also very helpful.  Finally, the repetition of important facts will help put the information into long term memory instead of just memorizing something for a test the next day.  These methods are examples that fall under visual encoding, acoustic encoding, and semantic encoding.
4.       Consider Maslow’s Hierarchy of needs (not in 9), how can this concept about the needs of human beings impact memory and learning? Provide 3 examples to prove your point. (Laura)Maslow developed a theory of personality that accurately describes many realities of personal experiences. Maslow’s theory of needs include self-actualization, esteem, love/belonging, safety, and physiological. If these "deficiency needs" are not met, the body gives no physical indication but the individual feels anxious and tense. This impacts humans with memory and learning because people must meet these five basic needs before truly learning. It is a useful guide for generally understanding why students behave the way that they do and in determining how learning. Maslow theorized that these needs must be met before a child can learn. A child who is hungry cannot learn. A child who is stressed cannot learn. A child who is in an environment absent of unconditional love cannot learn. The brain of a child who feels emotionally or physically threatened produces chemicals that actually inhibit learning.
5.       Research Bloom’s Taxonomy of Educational Objectives and Gardner’s Theory of Multiple Intelligences. How do they tie into what you learned about human memory and also, how can they help you create an effective learning strategy? Provide 3 pieces of factual supportyou’re your reasoning. (Laura)Bloom’s taxonomy of educational objectives is a multi-tiered model of classifying thinking according to six cognitive levels of complexity. These levels include remembering (retrieving, recognizing, and recalling relevant knowledge from long-term memory), understanding (constructing meaning from oral, written, and graphic messages through interpreting, exemplifying, classifying, summarizing, inferring, comparing, and explaining), applying (carrying out or using a procedure through executing, or implementing), analyzing (breaking material into constituent parts, determining how the parts relate to one another and to an overall structure or purpose through differentiating, organizing, and attributing), evaluating (making judgments based on criteria and standards through checking and critiquing), and creating (putting elements together to form a coherent or functional whole; reorganizing elements into a new pattern or structure through generating, planning, or producing). The steps listed are ways in which the human memory works to remember specific things. The theory of multiple intelligence as traditionally defined in IQ tests does not sufficiently describe the wide variety of cognitive abilities humans display. These two theories will help to create an effective learning strategy because they explain how the mind processes and remembers material, and that there are different ways for people to learn certain items.



Phase Two Part III

  • Design a way to collect data from your peers about how they learn.We’re collecting data by making the survey below and having various students throughout our school fill it out.
You learn and retain information best through…
                A.) Lecturing/Taking Notes
                B.) Hands-on Activities
                C.) Computer Based
                D.) Project Based
                E.) Reading/Self Taught

  • Create a way to present your data.
In December, we will present our information through posters, games, songs, and possibly a scrapbook.
  • Reflect on your data collection.
The survey was very reliable and it continued our ideas of using the various ways of presenting.
  • Real World Application.
It can help teachers know how to teach and explain how students learn best. Anyone is able to use our data because we are just trying to help our peers learn this information better.