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SLS1502 College Study Skills

SLS1502 Week 5

Objectives
  • Identify what is important to remember.
  • Understand the difference between short- and long-term memory.
  • Use a variety of strategies to build your memory power.
  • Identify the four key types of mnemonic devices.
  • Use mnemonics to remember lists of information.
Introduction

Questions to Consider:

  • What is the importance of memory when studying and how can we strengthen memory?
  • What are the steps to learning something new?
  • How is the brain affected by learning?
  • What kinds of learning are expected in college?

Student Profile

“I didn’t have to study much for tests in high school, but I learned really quick that you have to for college. One of the best strategies is to test yourself over the material. This will help you improve your retrieval strength and help you remember more when it comes to the test. I also learned about reviewing your graded tests. This will help you see where you went wrong and why. Being able to see your mistakes and correct them helps the storage and retrieval strength as well as building those dendrites. Getting a question wrong will only improve those things helping you remember the next time it comes up.”

—Lilli Branstetter, University of Central Arkansas

Kerri didn’t need to study in high school. She made good grades, and her friends considered her lucky because she never seemed to sweat exams or cram. In reality, Kerri did her studying during school hours, took excellent notes in class, asked great questions, and read the material before class meetings—all of these are excellent strategies. Kerri just seemed to do them without much fuss.

Then when she got to college, those same skills weren’t always working as well. Sound familiar? She discovered that, for many classes, she needed to read paragraphs and textbook passages more than once for comprehension. Her notes from class sessions were longer and more involved—the subject material was more complicated and the problems more complex than she had ever encountered. College isn’t high school, as most students realize shortly after enrolling in a higher ed program. Some old study habits and test-taking strategies may serve as a good foundation, but others may need major modification.

It makes sense that, the better you are at studying and test taking, the better results you’ll see in the form of high grades and long-term learning and knowledge acquisition. And the more experience you have using your study and memorization skills and employing success strategies during exams, the better you’ll get at it. But you have to keep it up—maintaining these skills and learning better strategies as the content you study becomes increasingly complex is crucial to your success. Once you transition into a work environment, you will be able to use these same skills that helped you be successful in college as you face the problem-solving demands and expectations of your job. Earning high grades is one goal, and certainly a good one when you’re in college, but true learning means committing content to long-term memory.


Have you ever thought about how we learn something new? Think back on a skill you have learned. Did you start with an interest in the topic or skill? Then, did you start practicing the skill or deepening your understanding of the topic? Perhaps you received feedback using the skill or sharing your knowledge and then you worked on refining that skill or understanding. If you participated in that process, then you did what Rita Smilkstein (2011) calls “The Natural Learning Process.”1 Here are the steps that she says we go through any time we learn:

(1) motivation;

(2) beginning practice;

(3) advanced practice to build a foundation upon which control, creativity, and critical and abstract thinking can be applied;

(4) skillfulness;

(5) refinement; and

(6) mastery.

Another way to look at learning is through the biological lens. When we go through the learning process outlined above, our brains actually change. This is called neuroplasticity, or the brain’s ability to form or reorganize neural pathways in reaction to the learning process. This means that when you learn something new, and especially if you practice it and fail at getting it right the first time, your brain is changing. When you get better at a skill such as throwing a curve ball or learning how to solve for X, your brain is actually reorganizing itself so that you can perform those tasks more quickly.

So what does this have to do with reading and note-taking? Your learning process has to begin somewhere before you can claim mastery of a concept. Too many students try to move quickly through reading or take only partial notes because they think that just by scanning a text or listening to a lecture and jotting down a few key ideas, they have adequately learned something. True, your brain is changing during those initial processes, but it will take much more practice (also known as studying) to help you recall that information at a later date. Moreover, your goal in college classes is not just to remember the information for a test, but it is to build on that foundational knowledge to learn different levels of thinking, which we will talk about in the next section.

Bloom’s Taxonomy

One aspect of learning in college is that different professors and different courses expect different types of learning from you. Figuring out how you need to learn the material and how you will be tested on it is part of learning the (sometimes) hidden curriculum.

If you want some insight into the types of learning you will do in college, you will want to get to know the work of Dr. Benjamin Bloom, an educational psychologist best known for his classification of different levels of learning, and the concept called Bloom's Taxonomy2. See Figure 5.1 for a list of the levels as well as verbs that demonstrate what you would do at each level. The bottom two levels, Remember and Understand, are called "lower levels” of Bloom's because they often take less effort than the others, and they are seen as foundational to the learning process.

The remaining levels are considered "higher levels” of Bloom's because they often require you not only understand the information, but also do something with it: apply it to a new situation, analyze its components, evaluate its strengths and weaknesses, or create something new from your knowledge. Not all of your learning in college and the workplace will be at the higher levels of Bloom’s Taxonomy, but as you gain more knowledge and develop more sophisticated academic and workplace skills, you will move beyond merely remembering information.

Let’s break down the different levels so you have a better understanding of them. The first and lowest level is “Remember.” At this level, you are attempting to recall information, such as definitions of terms or steps in a process. You don’t have to really understand (that will come next) the concepts at this level. For example, you may be able to memorize the steps of the Krebs Cycle by naming them in order, but that doesn’t mean you truly understand the processes involved and the effects of each step.

The second level is “Understand.” This is the stage in which you can explain or describe a concept in your own words. Usually, if you have restated a term, concept, or process in your own words, you have a basic understanding of it. Again, these are lower levels of Bloom’s Taxonomy and are the fundamental first steps if you want to move higher up on the taxonomy. The next level is “Apply,” which indicates that you know the concept well enough to use it in a new context. Math classes often ask you to remember and understand the steps of a formula and the reason you would use it, but then ask that you use that formula in a new problem.

The levels in which you “Analyze” and “Evaluate” require that you be able to examine the concepts in depth and be able to, for example, compare and contrast a concept with another concept (Analyze) or choose the best concept among others (Evaluate). The final level is “Create,” which, according to Bloom, is the pinnacle of learning: If you can create (or recreate) something new based on what you have learned, you have demonstrated understanding of a concept, idea, or skill.

We will revisit Bloom’s Taxonomy in the chapter on studying, but it is worth introducing in relation to reading and note-taking because students who read texts and take notes on their readings or the professor’s lectures are often capturing information to remember it later. This is a good first step to the learning process, but as you will see later, that is not the only or final step to learning.

A shape is divided into six portions. Toward the bottom are “Lower Order Thinking Skills,” and toward the top are Higher Order Thinking Skills. From bottom to top, the portions are Remembering, Understanding, Applying, Analyzing, Evaluating, and Creating.

Figure 5.1 Bloom’s Taxonomy provides both instructors and students with a method to classify learning objectives and skills into different levels of complexity.

Remembering Course Materials

In the previous chapter we covered how to capture material in your notes. The rest of this chapter is dedicated to strategies for recording ideas and facts in your memory.

The Role of Memorization in Learning

Have you ever gone into an exam you have studied for and drawn a blank on a particular question? Have you ever walked into a room only to forget for a moment why you went there? Have you ever forgotten where you left your keys? How about finding yourself in a conversation with someone whose name you can’t remember? The fact is, memory fails everyone from time to time. It is not surprising that students, with a huge amount of information they must commit to memory (not to mention frequent distractions and interruptions), are often frustrated by their memory.

Let’s start by taking some of the pressure off you. You will not be required to memorize everything your instructor says in a class—nor should you try to. There is way too much to capture. People speak at a rate of 100 to 150 words per minute. An average 50-minute lecture may contain around 7,500 words. By listening effectively and taking notes, your job is to distill the main ideas and a few keywords. These are the things you should choose to memorize.

In your early and high school education, memorization was a key aspect of learning. You memorized multiplication tables, the names of the states, and vocabulary words. Memorized facts ensured your success on multiple-choice questions. In college, however, most of your work is focused on understanding the material in depth. Remembering the year of the 9/11 attack (2001) is far less important than grasping the impact of that attack on American foreign policy. Understanding themes and ideas and being able to think critically about them is really the key to your success in college learning. Although memorization is not the primary key to success, having a good memory is important to capture ideas in your mind, and it helps tremendously in certain subjects like sciences and foreign languages.

How Memory Works

Memory is the process of storing and retrieving information. Think of a computer. In many ways it is an electronic model of the human memory. A computer stores, retrieves, and processes information similarly to how the human mind does. Like the human version, there are two types of memory: short-term or active memory (RAM in the computer) and long-term or passive memory (the computer’s hard drive). As its name suggests, short-term or active memory is made up of the information we are processing at any given time. Short-term memory involves information being captured at the moment (such as listening in class) as well as from information retrieved from our passive memory for doing complex mental tasks (such as thinking critically and drawing conclusions). But short-term memory is limited and suffers from the passing of time and lack of use. We begin to forget data within thirty seconds of not using it, and interruptions (such as phone calls or distractions) require us to rebuild the short-term memory structure—to get “back on task.” To keep information in our memory, we must either use it or place it into our long-term memory (much like saving a document on your computer).

How we save information to our long-term memory has a lot to do with our ability to retrieve it when we need it at a later date. Our mind “saves” information by creating a complex series of links to the data. The stronger the links, the easier it is to recall. You can strengthen these links by using the following strategies. You should note how closely they are tied to good listening and note-taking strategies.

  • Make a deliberate decision to remember the specific data. “I need to remember Richard’s name” creates stronger links than just wishing you had a better memory for names.
  • Link the information to your everyday life. Ask yourself, “Why is it important that I remember this material?”—and answer it.
  • Link the information to other information you already have “stored,” especially the key themes of the course, and you will recall the data more easily. Ask yourself how this is related to other information you have. Look for ways to tie items together. Are they used in similar ways? Do they have similar meanings? Do they sound alike?
  • Mentally group similar individual items into “buckets.” By doing this, you are creating links, for example, among terms to be memorized. For example, if you have to memorize a vocabulary list for a Spanish class, group the nouns together with other nouns, verbs with verbs, and so forth. Or your groupings might be sentences using the vocabulary words.
  • Use visual imagery. Picture the concept vividly in your mind. Make those images big, bold, and colorful—even silly! Pile concepts on top of each other or around each other; exaggerate their features like a caricature; let your imagination run wild. Humor and crazy imagery can help you recall key concepts.
  • Use the information. Studies have generally shown that we retain only 5 percent of what we hear, 10 percent of what we read, 20 percent of what we learn from multimedia, and 30 percent of what is demonstrated to us, but we do retain 50 percent of what we discuss, 75 percent of what we practice by doing, and 90 percent of what we teach others or use immediately in a relevant activity. Review your notes, participate in class, and study with others.
  • Break information down into manageable “chunks.” Memorizing the ten-digit number “3141592654” seems difficult, but breaking it down into two sets of three digits and one of four digits, like a phone number—(314) 159-2654—now makes it easier to remember. (Pat yourself on the back if you recognized that series of digits: with a decimal point after the three, that’s the value of pi to ten digits. Remember your last math class?)
  • Work from general information to the specific. People usually learn best when they get the big picture first, and then look at the details.
  • Eliminate distractions. Every time you have to “reboot” your short-term memory, you risk losing data points. Multitasking—listening to music or chatting on Facebook while you study—will play havoc with your ability to memorize because you will need to reboot your short-term memory each time you switch mental tasks.
  • Repeat, repeat, repeat. Hear the information; read the information; say it (yes, out loud), and say it again. The more you use or repeat the information, the stronger the links to it. The more senses you use to process the information, the stronger the memorization. Write information on index cards to make flash cards and use downtime (when waiting for the subway or during a break between classes) to review key information.
  • This is a test. Test your memory often. Try to write down everything you know about a specific subject, from memory. Then go back and check your notes and textbook to see how you did. Practicing retrieval in this way helps ensure long-term learning of facts and concepts.
  • Location, location, location. There is often a strong connection between information and the place where you first received that information. Associate information to learning locations for stronger memory links. Picture where you were sitting in the lecture hall as you repeat the facts in your mind.

Using Mnemonics

What do the names of the Great Lakes, the makings of a Big Mac, and the number of days in a month have in common? They are easily remembered by using mnemonic devices. Mnemonics (pronounced neh-MA-nicks) are tricks for memorizing lists and data. They create artificial but strong links to the data, making recall easier. The most commonly used mnemonic devices are acronyms, acrostics, rhymes, and jingles.

Acronyms are words or phrases made up by using the first letter of each word in a list or phrase. Need to remember the names of the Great Lakes? Try the acronym HOMES using the first letter of each lake:

  • Huron
  • Ontario
  • Michigan
  • Erie
  • Superior

To create an acronym, first write down the first letters of each term you need to memorize. Then rearrange the letters to create a word or words. You can find acronym generators online (just search for “acronym generator”) that can help you by offering options. Acronyms work best when your list of letters includes vowels as well as consonants and when the order of the terms is not important. If no vowels are available, or if the list should be learned in a particular order, try using an acrostic instead.

Acrostics are similar to acronyms in that they work off the first letter of each word in a list. But rather than using them to form a word, the letters are represented by entire words in a sentence or phrase. If you’ve studied music, you may be familiar with “Every Good Boy Deserves Fudge” to learn the names of the notes on the lines of the musical staff: E, G, B, D, F. The ridiculous and therefore memorable line “My Very Educated Mother Just Served Us Nine Pizzas” was used by many of us to remember the names of the planets (at least until Pluto was downgraded):

My Mercury
Very Venus
Educated Earth
Mother Mars
Just Jupiter
Served Saturn
Us Uranus
Nine Neptune
Pizzas Pluto

To create an acrostic, list the first letters of the terms to be memorized in the order in which you want to learn them (like the planet names). Then create a sentence or phrase using words that start with those letters.

Rhymes are short verses used to remember data. A common example is “In fourteen hundred and ninety-two, Columbus sailed the ocean blue.” Need to remember how many days a given month has? “Thirty days hath September, April, June, and November…,” and so forth. Writing rhymes is a talent that can be developed with practice. To start, keep your rhymes short and simple. Define the key information you want to remember and break it down into a series of short phrases. Look at the last words of the phrases: can you rhyme any of them? If they don’t rhyme, can you substitute or add a word to create the rhyme? (For example, in the Columbus rhyme, “ninety-two” does not rhyme with “ocean,” but adding the word “blue” completes the rhyme and creates the mnemonic.)

Jingles are phrases set to music, so that the music helps trigger your memory. Jingles are commonly used by advertisers to get you to remember their product or product features. Remember “Two all-beef patties, special sauce, lettuce, cheese, pickles, onions on a sesame seed bun”—the original Big Mac commercial. Anytime you add rhythm to the terms you want to memorize, you are activating your auditory sense, and the more senses you use for memorization, the stronger the links to the data you are creating in your mind. To create a jingle for your data, start with a familiar tune and try to create alternate lyrics using the terms you want to memorize. Another approach you may want to try is reading your data aloud in a hip-hop or rap music style.

Mnemonics are good memory aids, but they aren’t perfect. They take a lot of effort to develop, and they also take terms out of context because they don’t focus on the meaning of the words. Since they lack meaning, they can also be easily forgotten later on, although you may remember them through the course.

Footnotes

  • 1 Smilkstein, R. (2011). We’re born to learn: Using the brain’s natural learning process to create today’s curriculum. Thousand Oaks, CA: Corwin Press.

  • 2 Bloom, B.S. (1980). All our children learning. NY: McGraw-Hill.

From College Success Concise, Chapter 3: Reading and Note-Taking. Textbook content produced by OpenStax is licensed under a Creative Commons Attribution License. Access for free at https://openstax.org/books/college-success-concise/pages/3-introduction.


From College Success, Chapter 4: Listening, Taking Notes, and Remembering, Copyright © 2015 by University of Minnesota is licensed under a Creative Commons Attribution-NonCommercial-ShareAlike 4.0 International License, except where otherwise noted.