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Expensive “Free” part 2
By James H. Choi
http://Column.SabioAcademy.com
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In the last article, I discussed how pricing something as free when demand exceeds supply not only benefits unintended beneficiaries but also shifts where the money ultimately goes—and, in the end, the consumer will pay for it somewhere, somehow.
But what about the digital economy, where supply is infinite? In that case, prices truly are free. Engineering courses at MIT and philosophy courses at Harvard are available for free on edX, and you can read encyclopedias at no cost on Wikipedia. Beyond that, there are free products of all kinds, from the most basic operating system, Linux, to word processors and spreadsheets. Today, you can accomplish almost anything using free software.
You might be wondering, “Why pay for something when you can get it for free?” But all free things come with distortions. For example, if you donate large quantities of wheat, bicycles, or shoes to a poor neighborhood, the local wheat seller, bike shop, or shoe store will go bankrupt and may struggle to restart their business. Likewise, when an expert donates their talent for free, others with similar skills—or those aspiring to enter the field—are affected. This effect is especially pronounced in the digital economy, where products are infinitely replicable. Unlike wheat, bicycles, or shoes, a single digital contribution can be used and reused globally, amplifying its impact.
Consider word processors as an example. Currently, Microsoft Word is the only widely recognized paid word processor. Beyond that, many excellent word processors are available for free. While this benefits consumers, it also raises questions about the future. If our children, who will one day need to work and contribute to the economy, aspire to make money from word processing software, that path is already closed. If they insist on staying in that field, their only option is to join volunteer teams contributing to the improvement of free alternatives. Of course, the software world is vast, but nearly every type of software now has a free counterpart. Just think about how many paid apps you have on your smartphone—if you’re like me, you likely use free versions. In today’s world, the only way to succeed is to create a paid product that surpasses its free competitors.
Of course, one can contribute to humanity without prioritizing financial gain, offering their work for free. But to do that, one must first secure an income. Take Wikipedia, for example. We admire the contributors who write and share knowledge, but behind the scenes, financial support is always present—whether through direct sponsorships or through employers who pay these contributors enough in their regular jobs to afford working on Wikipedia without financial strain.
If a company were to offer its products for free, as Wikipedia or edX do, competitors worldwide would protest, and courts would likely rule it as dumping. Yet, when knowledge and talent are “dumped” in this way, they are praised rather than condemned. Regardless of whether it is praised or criticized, the economic effect remains the same. For instance, a professor at a second-tier university might find themselves at odds with administrators who would rather stream recorded lectures from Harvard professors than pay for local instruction. The current generation may fight to hold onto their positions until retirement, but for the next generation, opportunities are shrinking, and barriers to entry are already high. Of course, one can also take advantage of this landscape. In fact, success depends on doing so. Nearly all the necessary server software, databases, and programming languages are now free, meaning what once required a $100,000 investment in the early 2000s can now be accessed for just $50 a month. While the barriers to entry have risen for the average student, for those who understand this new infrastructure, know how to utilize it, and have innovative ideas, the world has opened up to unprecedented opportunities. Barriers and opportunities create polarization, and I hope, dear reader, that you will prepare yourself for this new economic era—so that you can position yourself on the favorable side
Expensive “Free” part 1
By James H. Choi
http://Column.SabioAcademy.com
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The concept of “free” or “freebie” has the power to distort reality. After all, there’s no escaping the fact that someone has to pay for something somewhere. Making something artificially free has unintended consequences—someone must cover the difference or incur a loss. In particular, if the person receiving the free benefits has more power than the one bearing the losses, this distortion becomes entrenched.
A representative example is the “free college” system. In Korea, there was once a “half-price tuition” movement, while in Brazil, they went a step further—state universities (which include most of the country’s top institutions) are legally required to provide free education. In other words, a system has been in place for decades where students can attend the best universities for free, as long as they study hard, regardless of their family’s financial circumstances.
What is the result? Children from wealthy families monopolize free college, while students from economically disadvantaged backgrounds either attend expensive private universities or give up on college altogether. In the end, the poor end up paying taxes to fund the college education of the wealthy, allowing them to maintain their social superiority.
The reason lies in the entrance exam. The University of São Paulo (Universidade de São Paulo, USP), considered the best university in South America, selects students through a highly competitive entrance exam. To pass, students must undergo rigorous preparation, which often requires attending an expensive private high school. The high school I attended was particularly well-known for sending many students to USP. As the entrance exam approached, large private institutes would visit our school, offering free review course certificates in exchange for our names. (I even sold my name to give to a friend.) These institutes would then use our names in newspaper advertisements and promotional materials as “lists of successful applicants,” creating the illusion of a high acceptance rate.
The problem was that students who couldn’t afford private high schools were often misled by these advertisements. Believing they had a real chance, they would spend large sums on “short-term intensive courses”—only to suffer significant financial loss.
From a Korean perspective, one might assume that even financially disadvantaged families would send their children to expensive private schools, struggling to secure a place at the University of São Paulo. However, in reality, such cases were rare—only my Korean friend’s family and mine did so. Most of my Brazilian friends came from financially well-off families.
Why has this flawed free college education system, which all Brazilians recognize and criticize, been maintained for decades? Because those who benefit hold power, while those who are harmed remain indifferent or have low voter turnout.
The same is true in the United States. On the surface, the American public high school system, which is almost “free,” gives the impression that every student can receive a quality education regardless of their family’s income. However, in reality, school districts manipulate local real estate prices, creating a system where only those who can afford to buy property gain access to excellent public education.
Until 2008, this was a privileged package that combined “free education” with “real estate investment profits.” High schools like New Trier, located in affluent areas, were highlighted in Savage Inequalities—a book criticizing educational inequality in the U.S.—as a prime example of privileged schooling.
About 10 years ago, District 211 in Schaumburg voted to raise property taxes to increase school operating expenses. The notices sent to residents at the time included the statement: “If your school fails to offer AP classes and other programs, the quality of your home will decline, and so will its value.” This felt more like a threat than a notice, and residents ultimately approved the tax increase.
The same pattern applies to public high schools that select students through entrance exams. Almost without exception, the list of successful applicants is dominated by students whose families have invested heavily in exam preparation. Ultimately, the conclusion is clear: in the United States, receiving a good public education largely depends on coming from a wealthy family.
This kind of distortion isn’t limited to education. At a popular singer’s concert, the real value of a seat is determined independently of the ticket price. Even if the concert is free, ticket prices skyrocket to market value through the black market. In other words, whether an event is free or paid, the final cost to the audience remains similar—it’s just the channel through which the money flows that changes.
The same applies to religious events. When Pope Benedict visited New York, free tickets to his Mass at a baseball stadium were distributed exclusively to Catholic church members in the city. However, those tickets soon appeared on the black market, selling for around $200 each.
This principle also extends to various rapidly growing free services, such as online university courses, Wikipedia, and open-source programming languages. These services have the power to distort markets, benefiting some while disadvantaging others. And the people who will be most directly affected by these shifts are our children, who are just beginning their journey into society.
A deeper analysis of this issue will be covered in Part 2.
Math That Video Games Can’t Teach You
By James H. Choi
http://Column.SabioAcademy.com
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Many families experience conflicts due to computer games. The obsession with games is mainly seen in male students, and even in the case of the students I teach, their research progress is often delayed for no particular reason. In most cases, they are so absorbed in the game that they neglect the work they should be doing.
There seems to be no clear answer as to how to solve this. Korea once implemented the “Cinderella Law,” which prohibited minors from playing online games after midnight. (On the other hand, the United States tends to leave it to the individual’s responsibility and leave it alone, as is typical of the United States.)
There are many articles and news articles about introducing various systems and providing addiction treatment, but there is no news of actual solutions. This is similar to the phenomenon of a new “miracle weight loss method” appearing every week. Numerous solutions appear and become popular, but the problem is getting deeper and deeper.
I don’t know how to solve this problem either. However, I am writing this article to inform you that one proposed method is not the right answer.
There is an idea of “teaching math through games” based on the plausible-sounding principle of “taking advantage of the enemy’s strength to attack” or “fighting with fire.” Even I think it sounds plausible. Even leaders of Tesla like Elon Musk, who should know everything about what math and what a game are, or economist Steve Levitt, author of “Freakonomics,” have said in interviews, “My child only studies for a short time, but he can play games indefinitely, so it would be good to teach him to study through games.” And there have been many companies that claim to “teach through games” before.
But I think they’re getting it all wrong. First of all, there is math that can be taught with games and math that cannot.
The math that can be taught with games is simple math. In the U.S., we have a win-win education policy of using calculators in the early grades to 1. increase the profits of calculator companies, 2. minimize the effort of teachers to teach students who make math mistakes, and 3. make students confident in math, all at the expense of students’ math skills. (People say “math doesn’t matter because it’s the computer age,” but that’s because people who have already mastered math are instinctively used to reaping the benefits and don’t recognize the spillover effects of weak math skills.) In short, the argument is that playing games will “naturally” make up for this math skill, which is true in theory. However, in practice, the question is, do students who are hooked on games want to play cumbersome games that require them to do this math over and over again? Especially when there are so many more fun games out there for free that don’t require math. And what top-notch game developer would want to get a bad reputation by polluting their work with math problems?
Even if you can somehow make math into a game, the next level of math cannot be packaged as a game. The reason we teach math as a compulsory subject to students is not to compete with computers in computational speed, but to dominate them: to understand the principles of the universe and human psychology so that computers can make decisions and predict the future. This is not the kind of math that can be learned or solved by reflex. It’s math that requires hours, days, or even years of thought, so how can you pack it into a game? It’s the same idea as teaching “meditation” or “patience” in a game, and you can predict a similar effect.
In any field, money can influence “scientific research”. In the 60s, there were advertisements for “doctors’ favorite cigarettes” and scientific studies showing that “cigarettes are good for you.” It hasn’t changed since then, and nowadays, we are being bombarded with “scientific studies” about the benefits of these games, but parents should be wise enough to recognize what can and cannot be taught by games.
How to Read Educational Statistic
By James H. Choi
http://Column.SabioAcademy.com
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When we read about education, we come across many statistics. However, we can rarely take them at face value. For example, if a college has a 10% acceptance rate, that would suggest that 9 out of 10 students must reapply the following year—but have you ever actually seen that happen? In reality, because each student applies to multiple colleges, their overall chances of getting accepted somewhere are much higher. The true acceptance rate is much closer to 100%, but no one tells you that.
To get to the truth behind these education statistics, we need to understand statistics. There’s an American proverb that says, “There are lies in the world, and then there are damned lies, and then there are statistics.” Statistics are based on the intent of the person who wrote them. Statistics can be morphed into an infinite number of things depending on the intent of the person quoting them. For example, a statistic might conclude that “single people eat more candy than married people” because it counts “kids” as “single”. It’s ridiculous, but kids are technically single. You can only blame yourself for being fooled, so as the saying goes, when you see a “statistic,” you should consider it a “sophisticated lie,” and check it out before you believe it.
Even if you’re armed with entirely true facts, some statistics can still be misleading and work against you. For example, if you’re recommending a risky surgery with a 20% failure rate, framing it as an “80% success rate” can significantly influence the patient’s decision. Similarly, a high school where 490 out of 500 graduates fail to get into a top-tier university may seem like a poor-performing school with a 98% failure rate. However, it can still attract parents by highlighting its achievement of sending “10 students to Ivy League schools every year!” In Korea, there are currently discussions about schools and institutions trying to regulate banners that proclaim, “XX student got into YY university.” I propose a system where institutions must either publish all students’ results, remain silent, or do both. This approach would uphold free speech while encouraging voluntary restraint. After all, no school or institution would dare to publish a list of rejected students stretching to the horizon just to celebrate a handful of successful ones.
A statistic is a number used to represent a complex whole in a simple number. So a statistic of 90% success only makes sense when looking at the whole from above, but for each individual participant, there are only 100% and 0% outcomes, no in-betweens. Since education involves students from different backgrounds and with different levels of preparation, every outcome is dependent on which students participated. Therefore, statistics related to education should be viewed as Bayesian Probability. Bayesian Probability is simply the concept of “yes”. It’s about whether this statistic is true for me. In education, for example, just because the math team at Q High School wins championships year after year doesn’t mean you’ll be good at math if you go there, because if all of the members of the math team at Q High School are international students from Korea (a real-life example of a prestigious boarding school in the East), the math reputation of the school is not “true” for other students because the finished product was imported, not taught at the school. In another example, many parents decide to send their child to High School A based on the statistic “more graduates of High School A are accepted to University H”, but before accepting this statistic, they need to determine whether it is true for all students at High School Q, or only for students at High School Q whose grandfather’s name is on the campus of University H. To make a sound decision, they need to determine whether the statistic is true for all students at High School Q, or only for students at High School Q whose grandfather’s name is on the campus of University H. Then they can use Bayesian Probability.
So, how do you use Bayesian Probability to create an educational strategy? While gathering official information, you must also seek the experience of someone who is similar to you, i.e., a mentor who can give you the backstory, the inside scoop, and the experience. The more similar this mentor’s personality/conditions/goals are to yours, the more likely it is that all the fuzzy probabilities of your path will become clear and sharp, and you’ll be able to make an informed judgment. If you’re a unique student and you can’t find a senior to look up to, another option is to seek advice from a professional who has experience guiding similar students, especially if they’ve been there, done that, and know “it”. This mentor’s advice, combined with the official information on the school’s website, will help you see the road ahead clearly, and you’ll be able to formulate the most ambitious and most solid strategy.
Difference between math and science competitions
By James H. Choi
http://Column.SabioAcademy.com
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Ten years ago, it was not uncommon for parents interested in education to not know what the AMC (American Math Competition) was. It is not unreasonable to say that there are more math teachers in the U.S. who do not know what AMC is than those who do, not even 10 years ago, but even now, AMC is known only to a select few. At that time, it was considered a record to be proud of because it was rare for Korean students to score high in math competitions, but now it is common to go to AIME, and I personally know several students who went to AIME in 8th grade, so not having an AIME record is a disadvantage.
Awareness of science competitions is not yet as widespread among Korean parents as it is in math. Indian students realize the importance and participate early on because many of them are the children of parents who work in science and engineering. When I was a judge at the ISEF six years ago, there were very few Korean students, but many Indian students, and the judges, then and now, don’t look Korean, but many Indian. The most outstanding student I mentor now is also a talented and motivated Indian student. But judging from the inquiries I’m getting, I think Korean parents are starting to recognize the importance of the science fair.
Although the science contest and the math contest are the same, there are many differences between them, so it will be helpful to know the following differences and prepare for the contest.
- No written questions For math competitions, you can prepare by looking at the questions and explanations. However, science competitions do not have such a problem, and it is plagiarism to copy the previous research.
- Winners are announced on the day. While math competitions like AMC make you wait weeks to receive your scores, science competitions, with few exceptions, award winners on the same day as the regional/state competition. This can be exciting, but it can also be frustrating. Don’t get caught up in the frenetic pace of the process and keep a cool head.
- There are no right answers or explanations In math competitions, there is a right and wrong answer, just like math, but in science competitions, you have to evaluate research that approaches different topics in different ways, and especially when it comes to choosing the overall winner, you have to compare fields as far apart as math and psychology to determine superiority, so there are no clear criteria and you have to rely on the judges’ “gut feeling”. There are probably enough cases where the same judges could come back the next day to review the same research and come to a completely different decision. The unpredictability is compounded by the time pressure of the awards ceremony.
- Luck is a big factor The outcome depends on who is judging on the day of the competition and how they are judging. If you are doing particularly high-quality research, you need to have judges who recognize it, otherwise you will be indistinguishable from a student who copied a few Google results.
- You have to present in person, one-on-one. While math competitions are a solitary struggle, science competitions are all about being able to convince others. Every judge is a one-on-one test to convince the doubters of your excellence. Students who are shy or hesitant will unknowingly lose points because they have to answer questions from aggressive adults who are suddenly trying to find fault with them. If you are not naturally a stage person, it is very important to practice public speaking.
- You need to be able to write a science report. As you move up the evaluation stages, you will be evaluated through posters, interviews, and reports. Since it is not considered comprehensively but evaluated as one step at a time, the weakest link among the poster, interview, and report ends up being the culprit. Science reports are different from general essays in terms of order, format, and tone, and equations must be used. Since this cannot all be learned overnight, you must learn how to write a science report well in advance.
- Science competitions are zero-sum games and outcomes are relative. It’s not about how well you did, but it’s about how much better your research is than other research. Getting to AIME is not limited to how many people in your school can be at the AIME level, but science fairs are limited to a strict head-to-head comparison.
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