How We Remember, and Why We Forget

I remember my mother’s vegetable garden when I was a child, corn plants tall like skyscrapers. I remember when I fell out of a tree and everyone from the neighbor’s barbecue rushed over to see if I’d broken a bone. Remember, remember… the verb itself is poetic, connotating the essence of experience. The notion of memory is so intriguing that we’ve come up with more metaphors for it than for any other mental phenomenon. Early theories predicted a memory “engram,” a literal text written by the body to describe past experiences. Freud popularized descriptions of repressed memories, experiences physically buried in the depths of the subconscious. Modern descriptions are dominated by analogies to computers, in which the human brain is a hard disk that stores experience in electronic files and folders. Typical of biology, the truth is at once more complicated and more beautiful than any of these descriptions.

Fundamentally, memory represents a change in who we are. Our habits, our ideologies, our hopes and fears are all influenced by what we remember of our past. At the most basic level, we remember because the connections between our brains’ neurons change; each experience primes the brain for the next experience, so that the physical stuff we’re made of reflects our history like mountains reflect geologic eras. Memory also represents a change in who we are because it is predictive of who we will become. We remember things more easily if we have been exposed to similar things before, so what we remember from the past has a lot to do with what we can learn in the future.

An understanding of memory is an understanding of the role of experience in shaping our lives, a critical tool for effective learning in the classroom and beyond. In this article we will explore how experiences become memories, and we’ll examine whether the way that we create and store memories can influence the way that we learn.

Immediate, Working, and Long-Term MemoryScientists divide memory into categories based on the amount of time the memory lasts: the shortest memories lasting only milliseconds are called immediate memories, memories lasting about a minute are called working memories, and memories lasting anywhere from an hour to many years are called long-term memories.

Each type of memory is tied to a particular type of brain function. Long-term memory, the class that we are most familiar with, is used to store facts, observations, and the stories of our lives. Working memory is used to hold the same kind of information for a much shorter amount of time, often just long enough for the information to be useful; for instance, working memory might hold the page number of a magazine article just long enough for you to turn to that page. Immediate memory is typically so short-lived that we don’t even think of it as memory; the brain uses immediate memory as a collecting bin, so that, for instance, when your eyes jump from point to point across a scene the individual snapshots are collected together into what seems like a smooth panorama.

Declarative and Nondeclarative MemoriesAnother way to categorize memory is to divide memories about what something is from memories about how something is done. Skills like catching a baseball or riding a bicycle are called nondeclarative memories because we perform those activities automatically, with no conscious recollection of how we learned the skills. Declarative memories, on the other hand, are memories of facts and events that we can consciously recall and describe verbally.

Categorizing memory temporally and functionally makes sense from the clinical and biological perspective; patients with various amnesias may have difficulty with one particular type of memory and not with others. Moreover, scientists have discovered that different brain structures are specialized to process each category of memory, suggesting that these categories are not merely convenient for discussion, but are based in the biology of how we remember. Understanding how memories are formed in each category and how some memories move amongst categories can help to focus strategies for improving memory and learning.

How Memories Are MadeModern computers encode memory as a vast array of independent, digital bits of information that are “randomly accessible.” Functionally, this means that your computer can bring up your best friend’s phone number without accessing any information about what your best friend looks like or how you met. The human brain stores memory in a very different way; recalling your best friend’s phone number may very well bring to mind your friend’s face, a pleasant conversation that you had, and the title of the movie that the two of you are going to see. While computer memories are discrete and informationally simple, human memories are tangled together and informationally complex.

Our memories are rich because they are formed through associations. When we experience an event, our brains tie the sights, smells, sounds, and our own impressions together into a relationship. That relationship itself is the memory of the event. Unlike computer memories, a human memory is not a discrete thing that exists at a particular location; instead, it is an abstract relationship amongst thoughts that arises out of neural activity spread over the whole brain.

But how is the memory relationship actually made? The process from both a biological and a behavioral perspective is critically dependent on reinforcement. Reinforcement can come in the form of repetition or practice; we remember that two plus two equals four because we’ve heard it so many times. Reinforcement can also occur through emotional arousal; most people remember where they were when they heard that John F. Kennedy was shot because of the highly emotional content of that event. Arousal is also a product of attention, so memories can be reinforced independent of context by paying careful attention and consciously attempting to remember.

Remembering a New FaceReinforcement is important in forming memories because it moves the memory relationship from short-lived categories to longer-lasting ones. For example, if you met a man called John Byrd at a party, you’d see his face, hear his name, and you’d be aware of the social context of the event. At first this information is loosely held in immediate memory, just long enough for the event to play itself out. Immediate memories are held in various modality-specific regions of the brain, meaning that immediate visual memory is probably held in visual parts of the brain, immediate auditory memory in auditory parts of the brain, and so on.

If you paid attention during the introduction, the relationship between sight, sound, and awareness is brought together into working memory, somewhere in the prefrontal lobe of the brain. When the event moves from immediate memory to working memory, certain features will be lost. You probably won’t remember background conversations from the party, and you may not remember the color of the Mr. Byrd’s shoes. The loss of distracting information is an important feature of human memory, and is critical for efficient storage and recollection of experiences.

At this point you might rehearse the event by saying the name to yourself, or by making up a mnemonic (John Byrd, who has a big hook nose like a bird). The mnemonic and the rehearsal cause the memory to move from working memory into long-term memory, a change that starts in the brain’s hippocampus. The process of converting working memory into long-term memory is called consolidation, and again, it is characterized by the loss of distracting information. Several days after meeting Mr. Byrd you may not be able to remember what color his tie was or whether he wore a wristwatch, but you will still remember his face, his name, and the person who introduced you to him. The consolidation phase of memory formation is sensitive to interruption; if you are distracted just after meeting Mr. Byrd, you may have trouble remembering his name later.

So to recap, the event of meeting John Byrd started out in immediate memory, spread out in various modality-specific regions of the brain. Reinforcement through attention caused the relationship between sight, sound, and context to consolidate into working memory in the prefrontal lobe. Further reinforcement through practice caused more consolidation, and the most critical relationships in the event (the name, the face, and the context) were tied together in the hippocampus. From there, the memory relationship is probably stored diffusely across the cerebral cortex, but research on the actual location of memory relationships is still inconclusive.

Can Memory Be Improved?The end result of all of this moving across categories is that humans are good at remembering a few complex chunks of information while computers are good at remembering many simple chunks of information. It is a lot easier for a person to remember four photographs in great detail than it is to remember a list of forty two-digit numbers; quite the opposite for a computer. Also, because we form memories through consolidation, attention and emotional arousal work together to determine what features of an event are important, and therefore what features will be remembered.

From a practical perspective, that means that we can remember something best if we learn it in a context that we understand, or if it is emotionally important to us. It is a lot easier to remember that the hypophysial stalk connects the hypothalamus to the pituitary gland if you already know a lot about neurobiology. But it’s also an easy fact to remember if you’ve ever had a loved one who suffered from a tumor near that part of the brain.

Mnemonic strategies, contextual learning, repetitive rehearsal, and emotional arousal are all good ways to ensure that we remember the things that are important to us. By focusing our learning strategies on the strengths of the brain’s memory systems, we may be able to learn more information in a shorter amount of time in a way that is useful to our lives. That focus requires understanding the limitations of our memories; the human brain is not good at remembering long lists of unrelated numbers, dozens of nonsense words, or lengthy grocery lists. While the brain has an extraordinary ability to remember many events in rich detail, the neurologically appropriate strategy for life’s most mundane memory tasks may require little more than pen and paper.

Ashish Ranpura earned his bachelor’s degree in neuroscience at Yale University, where he studied the cellular basis of learning and memory. He began his career in science journalism at National Public Radio’s “Science Friday,” and continues to be deeply interested in promoting public understanding of science. He is currently conducting research on cognitive development underlying number perception and arithmetical skills.

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Memory and Mnemonic Devices (Based on scientific research )

Mnemonic devices are techniques a person can use to help them improve their ability to remember something. In other words, it’s a memory technique to help your brain better encode and recall important information. It’s a simple shortcut that helps us associate the information we want to remember with an image, a sentence, or a word.

Mnemonic devices are very old, with some dating back to ancient Greek times. Virtually everybody uses them, even if they don’t know their name. It’s simply a way of memorizing information so that it “sticks” within our brain longer and can be recalled more easily in the future.

Popular mnemonic devices include:

The Method of Loci

The Method of Loci is a mnemonic device that dates back to Ancient Greek times, making it one of the oldest ways of memorizing we know of. Using the Method of Loci is easy. First, imagine a place with which you are familiar. For instance, if you use your house, the rooms in your house become the objects of information you need to memorize. Another example is to use the route to your work or school, with landmarks along the way becoming the information you need to memorize.

You go through a list of words or concepts needing memorization, and associate each word with one of your locations. You should go in order so that you will be able to retrieve all of the information in the future.

Acronyms

An acronym is a word formed from the first letters or groups of letters in a name or phrase. An acrostic is a series of lines from which particular letters (such as the first letters of all lines) from a word or phrase. These can be used as mnemonic devices by taking the first letters of words or names that need to be remembered and developing an acronym or acrostic.

For instance, in music, students must remember the order of notes so that they can identify and play the correct note while reading music. The notes of the treble staff are EGBDF. The common acrostic used for this are Every Good Boy Does Fine or Every Good Boy Deserves Fudge. The notes on the bass staff are ACEG, which commonly translates into the acrostic All Cows Eat Grass.

Rhymes

A rhyme is a saying that has similar terminal sounds at the end of each line. Rhymes are easier to remember because they can be stored by acoustic encoding in our brains. For example:

• In fourteen hundred and ninety-two Columbus sailed the Ocean Blue.
• Thirty days hath September,
  April, June, and November;
  All the rest have thirty-one,
  Save February, with twenty-eight days clear,
  And twenty-nine each leap year.

Chunking & Organization

Chunking is simply a way of breaking down larger pieces of information into smaller, organized “chunks” of more easily-managed information. Telephone numbers in the United States are a perfect example of this — 10 digits broken into 3 chunks, allowing almost everyone to remember an entire phone number with ease. Since short-term human memory is limited to approximately 7 items of information, placing larger quantities of information into smaller containers helps our brains remember more, and more easily.

Organizing information into either objective or subjective categories also helps. Objective organization is placing information into well-recognized, logical categories. Trees and grass are plants; a cricket is an insect. Subjective organization is categorizing seemingly unrelated items in a way that helps you recall the items later. This can also be useful because it breaks down the amount of information to learn. If you can divide a list of items into a fewer number of categories, then all you have to remember is the categories (fewer items), which will serve as memory cues in the future.

Imagery

Visual imagery is a great way to help memorize items for some people. For instance, it’s often used to memorize pairs of words (green grass, yellow sun, blue water, etc.). The Method of Loci, mentioned above, is a form of using imagery for memorization. By recalling specific imagery, it can help us recall information we associated with that imagery.

Imagery usually works best with smaller pieces of information. For instance, when trying to remember someone’s name you’ve just been introduced to. You can imagine a pirate with a wooden leg for “Peggy,” or a big grizzly bear for “Harry.”

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Abdaal Akhtar Rank – 35: Preparation Strategy for UPSC CIvil Services Exam (Law optional )

CSE’s question papers follow no set pattern, what the examiners are looking for is at best a reasoned guess and the syllabus keeps on increasing with, literally, every passing day. What follows is the gist of my own experience with this exam (with expert commentary provided by the benefit of hindsight).

Master your Optional

Bear in mind that the CSE is not a standardized one-size-fits-all exam. Every aspirant is allowed to choose her preferred optional where she can play to her strengths. So this is really where one should make an all out effort to excel.

A word about optional selection-I chose my graduation subject-Law. It isn’t my most favourite subject in the world; the syllabus is larger than many other popular subjects and it is difficult to access notes here. I had two reasons for my choice:

• I had studied Law for five years
• It covered a large portion of the GS Polity section

My strategy for Law involved reading only standard text books. I bought no guide books or dukkis. It took a lot of time, probably even more than the time I dedicated to GS. But it had a major advantage. When I was done with the five books I had chosen, I was confident that I had the concepts and case law absolutely clear in my head. No guidebook can ever give you that peace of mind.

Simplify

In 2013, I thought GS Paper II was going to be a piece of cake. What terror could a Polity dominated paper hold for a lawyer? So when I secured only a 51 in that, it was a rude shock. The mistake I had made was that I forgot I was not writing for a lawyer. The examiner is not a specialist in your subject. The more you bombard her with high funda trivia and specialized gyaan, the more anti-climactic your marks are going to be. Always write in a manner that would make sense to a layman. Points or paragraphs do not matter. I freely used both. Keep jargon to a minimum. NEVER use long sentences when a short one would do. It is tough to hold an examiner’s attention anyway. Don’t make it even more difficult for her by using sentences stretching to a para.

Revise your Strengths

Do not ever take a subject (or topic) for granted or skip it completely under the mistaken notion that you know it inside out. I did that with history and geography (for GS Paper I) in my first attempt. These have been my favourite subjects for a long time and I was extremely confident of my abilities here. The paper went very well but I knew deep inside that I could have done even better. When I missed the final list by four marks, this was the first thing that came back to haunt me. This year, the only reason I could comment on the difference between Taxila and other universities or expound on the importance of Panipat was because I had given a second read to all my history texts.

Attempt Everything

Never buy into the idea that you are better off writing excellent answers for 80% of the questions than writing average answers for all. You HAVE to attempt every single question. It does not matter if you know only a couple of lines on the topic. Write it down. Add in some of your general gyaan and make sure it is about a hundred words long. There is no way you are going to get two extra marks for even the most exquisitely written answer. But you are sure to miss out on the three-four assured marks that even an answer of average quality would fetch. I answered all the questions I had no clue about right at the beginning. With them out of the way, I could take on the rest of the paper in a more relaxed frame of mind.

Practise

I cannot possibly overstate the importance of this part. For both my attempts, I did (almost) ALL my GK revision right here from the Insights Daily Answer Writing Challenge. Some I posted on the website. Some I did not. But I know that I atleast had a look at every single question that was ever put up. I attended a Test Series too this year. It did wonders for my writing speed while serving as another useful revision tool. I don’t think I ever bothered with the evaluated sheets. I however made sure that I found out the answer to every question I did not know there, and wrote it down somewhere, that very day.

Relax

The CSE is important. But it is not your life. As humans, there is only so much obscure knowledge that we can take in at a time. I took a day off from studying every week right till my Mains. I went out, chilled with my friends and discussed everything except UPSC. It helped put my priorities in order. I have a great love for travelogues and historical non-fiction. I devoted Saturday evenings to this and finished a book every month from May till November.

Lastly, never lose hope. For a process this long drawn out, there is always a strong element of luck involved. I sailed through Prelims and Mains in 2013 without much preparation and while working full time. In 2014, I almost flunked the CSAT even after intensive practice for no particular reason. As long as we know that we haven’t given our best, there is always scope for improvement.

These tips may or may not work for everybody. I make no claim that the UPSC won’t hate you if you follow these. But if they prove to be even remotely useful to a single aspirant, I would be very glad.

All the very best to all of you.

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An 18-Minute Plan for Managing Your Day and Finding Focus

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A ritual and its predictability can help finding focus in your day

We start every day knowing we’re not going to get it all done or fit it all in. How we spend our time is really a function of priorities. That’s why Peter Bregman argues in 18 Minutes: Find Your Focus, Master Distraction, and Get the Right Things Done that we need to plan ahead, “create a to-do list and an ignore list, and use our calendars.”

“The hardest attention to focus,” he writes, “is our own.”

***
The Ritual of Managing Our Day

We need ritual to manage our days, “clear enough to keep us focused on our priorities. Efficient enough not to get in the way.”

Bregman argues that ritual should take 18 minutes a day: Your Morning Minutes, Refocus, and Your Evening Minutes.

***
Step 1 (5 Minutes) : Your Morning Minutes

Echoing Tim Ferriss Bregman recommends planning ahead. Ferriss prefers the night before, Bregman prefers the morning.

Before you turn on your computer, sit down with your to-do list and “decide what will make this day highly successful.”

Take the items off your to-do list (a picture of Bregman’s to-do list is below) and schedule them into your day.

Bregman’s To Do List

“Make sure,” he writes, “that anything that’s been on your list for three days gets a slot somewhere in your calendar or move it off the list.”

***
Step 2 (1 Minute Every Hour): Refocus

Some interruptions help us course correct.

Set your watch, phone, or computer to ring every hour and start the work that’s listed on your calendar. When you hear the beep, take a deep breath and ask yourself if you spent your last hour productively. Then look at your calendar and deliberately recommit to how you are going to use the next hour. Manage your day hour by hour. Don’t let the hours manage you.

***
Step 3 (5 Minutes): Your Evening Minutes

“At the end of your day,” Bregman writes, “shut off your computer and review how the day went.”

Ask yourself three sets of questions:

1. How did the day go? What success did I experience? What challenges did I endure?
2. What did I learn today? About myself? About others? What do I plan to do—differently or the same— tomorrow?
3. Whom did I interact with? Anyone I need to update? Thank? Ask a question of? Share feedback with?

***

The key to this is the ritual and its predictability.

If you do the same thing in the same way over and over again, the outcome is predictable. In the case of 18 minutes, you’ll get the right things done.

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How to Get Smarter

Wouldn’t you like to know how to get smarter? Of course.

I’ve looked at the science on the subject many times in the past and there are some simple methods — like, believe it or not, exercise and even chewing gum.

But is that really going to move the needle over the long haul? Research shows that IQ isn’t all that valuable without a little discipline behind it.

So what’s going to really make a difference? Learning.

• Numerous studies have shown learning another language is good for your brain.
• There’s a lot of evidence that learning to play music can make you smarter.
• Or learn any new skill.

Cool. But learning new stuff takes time. And you’re busy. But what if you could pick up new skills super fast?

Ah-ha. Now we’re on to something. However, I’m no expert at this. But, luckily, I know a guy who is.

Tim Ferriss is the bestselling author of The 4-Hour Workweek. And he’s also an expert at learning new stuff fast. In fact, his new TV show, The Tim Ferriss Experiment, is about just that.

In the various episodes Tim tackles all kinds of skills from poker to rally car racing to chess — and then puts his new talents to the test. (He picks up the language Tagalog in 4 days and then does an interview in Tagalog on Filipino TV.)

So what can Tim teach you about accelerated learning? A lot. And all you have to remember is a simple acronym:

“DiSSS”

Those are the four steps: Deconstruction, Selection, Sequencing, and Stakes.

I’ll break down the steps for you below. Okay, let’s get learnin’.

1) Deconstruction

Picking up a language? Oh god, that takes forever… Wrong.

Every skill has parts. To learn effectively you need to break it down into the key elements. This makes something that may seem overwhelming and divides it into manageable chunks. Here’s Tim:

The D is deconstruction. You’re taking a complex skill like learning a language, tactical shooting, or swimming and breaking it down into components. For swimming you would have arm movement, leg movement, different strokes, etc. Try to break a skill down into 5-10 pieces.

(For more on the 8 things successful people do that make them great, click here.)

That’s pretty straightforward. But here’s where Tim’s expertise really helps…

2) Selection

Most classes or books start you out from the beginning and gradually build you up. That’s nice if you have a lot of time. You don’t.

We need to be smart about where we put our energy and focus if we want to make progress quickly. Forget what is fundamental and ask yourself what is most important to get to competency.Here’s Tim:

The first S is selection. That’s doing an 80-20 analysis and asking yourself, “Which 20% of these things I need to learn will get me 80% of the results that I want?”

So when learning a language, Tim doesn’t bother with the typical basics. He looks at what the most frequently used words are and studies those first.

That Spanish class taught you the word “Father” in the first week. But how often do you really talk about Dad? Here’s Tim:

You can become functionally fluent in any language, in my opinion, in 6-12 months. But you can do it in more like 8-12 weeks just by choosing the 1500 highest frequency words. What you study is more important than how you study it. Rosetta Stone is not going to help you if you’re studying the wrong words.

This jibes with the research. When I spoke to Sports Gene authorDavid Epstein about how world class athletes train, he said the same thing: “The hallmark of expertise is figuring out what information is important.”

And what’s the first thing academic research shows helps undergraduates get better grades? Yup:

Learning occurs best when important information is selected from less important ideas, when selected information is organized graphically, when associations are built among ideas and when understanding is regulated through self-testing…

3) Sequencing

This is the thing most teachers, classes and books get wrong.

Not only do they not focus on what’s important but they don’t work on that stuff first. Here’s Tim:

The next S is sequencing. That’s just putting things in the right order. Putting things in the right progression, that’s really the secret sauce that is missing from almost any instructional book, DVD, video, class, etc.

When Tim was learning chess from champion Josh Waitzkin (whose life was the basis for the film “Searching for Bobby Fischer“) they did things the opposite from how most chess instruction works.

They didn’t start with the beginning of a chess game. They jumped straight to key moves that are applicable to the majority of interactions on the board. This allowed Tim to hang with top players after only a few days of practice. Here’s Tim:

Josh would basically do things in reverse. He took all the pieces off the board and started training me with King and Pawn versus King. By doing that he was teaching me not rote memorization of openings, but really powerful principles that can apply to the entire game in many different circumstances. Just by giving me a very short tutorial on a few principles with three pieces on the board, I went to Washington Square Park, and I was able to survive three or four times longer than I should have against a really savvy speed chess street hustler.

So you’ve broken your area of study into parts, figured out what is important, and you’re focusing on that first. What’s the final step?

4) Stakes

You won’t get fired from your job if you don’t learn to speak Russian. Your family won’t starve if you don’t master the guitar. And this is why you quit. Because you can.

You need an incentive to keep practicing. Or, even better: a penalty if you don’t practice. Here’s Tim:

Stakes is arguably the most important piece. By stakes, I mean consequences. Some type of reward or punishment to keep you on track and accountable. To prevent yourself from quitting, you need incentives.

So Tim recommends using what researchers call a “commitment device.”

Write a check for $100 to a political party you hate or a cause you are actively against. Give it to a friend. If you don’t achieve your goal or put in the hours, your friend mails the check. Boom. You’re now motivated.

Okay, Tim has given us some powerful tools for learning. Let’s round them up.

Sum Up

Just remember this… actually, just remember “DiSSS”:

1. Deconstruction: Break a skill down into its key elements.
2. Selection: Figure out what’s important and what gets used most often.
3. Sequencing: Work on the important stuff, not what chronologically comes first.
4. Stakes: Use a “commitment device” to make sure you have skin in the game and don’t quit.

And hang out with smart people. Research shows it helps. (In fact, studies show stupidity is contagious.)

So what’s the best way to get started? This is no magic trick. It comes from the heart. The first step is to believe that you can become smarter:

Thinking about intelligence as changeable and malleable, rather than stable and fixed, results in greater academic achievement, especially for people whose groups bear the burden of negative stereotypes about their intelligence.

And learning doesn’t have to be a solitary activity. In fact, it shouldn’t be. Wanna be smarter? Surround yourself with people who believe in you.

…Rosenthal and Lenore Jacobson (1968) did the same study in a classroom, telling elementary school teachers that they had certain students in their class who were “academic spurters.” In fact, these students were selected at random. Absolutely nothing else was done by the researchers to single out these children. Yet by the end of the school year, 30 percent of the the children arbitrarily named as spurters had gained an average of 22 IQ points, and almost all had gained at least 10 IQ points

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How to Optimize Your Daily Schedule

We know how most people spend their time. What can research tell us about the best way to spend our time?

• Maybe you’re a night owl. You don’t want to get out of bed. There’s a way toget out of that habit. And it’s important becauseyour mood in the morning affects your entire day.

• Is it Monday? Don’t worry, it won’t be as bad as you think. (On the other hand, Fridays aren’t that great, either.)

• There are many reasons why a shower in the morning makes you feel so good and it might even make you more creative.

• Don’t skip breakfast, it can lead to murder. Then again maybe starving is better for your health. Have some coffee — here’severything you need to know about it, including the best way to use it.

• Commuting makes everyone miserable. Try to avoid traffic or get a job closer to home, if possible.

• You’re at the office. Don’t procrastinate. Here’s a ritual to start the day off right. Do important things first if you want to hear “yes” from people. You can be a productivity dynamo with the right tips.

• During the day it might be good to know how to set goals, be agreat leader, improve teamwork, give an awesome presentation, and deal with lousy meetings. And here‘s how to get through the work day without killing anyone. Need to do creative work? Do it at home.

• Have lunch or you’ll be cranky — even if you don’t realize it.

• Any way to sneak a nap in here? Naps increase learning, aiddecision-making and purge negative emotions. Here’s how to make them amazing.

• (Is it the weekend? We know what activities best help you recover from the workweek and what makes the weekend fun. Most important, spend time with friends and family.)

• Do not just plop down in front of the TV. In the long term it will make you miserable. Wasting time on the internet might meanyou’re not getting enough sleep.

• Between 6-8PM is the best time to hit the gym. (Your body temp is at its highest and this is the peak time for strength and flexibility.) I don’t need to tell you that exercise is good for you but it might get you a raise and you might be surprised to find out that looking at porn, action movies and superheroesbeforehand might improve your workout.

• Now might be a good time to work on a hobby or build that skill you’ve been working on (gotta get to 10,000 hours somehow) Reading is great but it might be better if you did all your reading for the year in two weeks, actually.

• The best thing to do to increase happiness is spend time with friends and family. Having a better social life can be worth as much as an additional $131,232 a year in terms of life satisfaction.

• Between 10PM and 1AM is the best time for sex because skin sensitivity is at its highest.

• Didn’t get enough done today? Feel strapped for time? You might want to consider volunteering. Ironically, giving away time makes you feel like you have more of it.

• Exhausted? Oddly enough this might be a good time to get some creative work done. Or are you wide awake? Larks and night owls have different strengths and weaknesses.

• These tips might help you get to sleep. And you should make time for the proper amount of sleep — you can’t get away with less. No, you can’t. Missing an hour can take points off your IQand make it harder to be happy.

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