How Elon Musk Learns Faster And Better Than Everyone Else
Authorās Note: This article was written over 60 hours with love and care using the blockbuster mental model.
How is it even possible that Elon Musk could build four multibillion companies by his mid-40sāin four separate fields (software, energy, transportation, and aerospace)?
To explain Muskās success, others have pointed to his heroic work ethic (he regularly works 85-hour weeks), his ability to set reality-distorting visions for the future, and his incredible resilience.
But all of these felt unsatisfactory to me. Plenty of people have these traits. I wanted to know what he did differently.
As I kept reading dozens of articles, videos, and books about Musk, I noticed a huge piece of the puzzle was missing. Conventional wisdom says that in order to become world-class, we should only focus on one field. Musk breaks that rule. His expertise ranges from rocket science, engineering, physics, and artificial intelligence to solar power and energy.
In a previous article, I call people like Elon Musk āexpert generalistsā (a term coined by Orit Gadiesh, chairman of Bain & Company). Expert generalists study widely in many different fields, understand deeper principles that connect those fields, and then apply the principles to their core specialty.
Based on my review of Muskās life and the academic literature related to learning and expertise, Iām convinced that we should ALL learn across multiple fields in order to increase our odds of breakthrough success.
The jack-of-all-trades myth
If youāre someone who loves learning in different areas, youāre probably familiar with this well-intentioned advice:
Grow up. Focus on just one field.
Jack of all trades. Master of none.
The implicit assumption is that if you study in multiple areas, youāll only learn at a surface level, and never gain mastery.
The success of expert generalists throughout time shows that this is wrong. Learning across multiple fields provides an information advantage (and therefore an innovation advantage) because most people focus on just one field.
For example, if youāre in the tech industry and everyone else is just reading tech publications, but you also know a lot about biology, you have the ability to come up with ideas that almost no one else could. Vice-versa. If youāre in biology, but you also understand artificial intelligence, you have an information advantage over everyone else who stays siloed.
Despite this basic insight, few people actually learn beyond their industry.
Each new field we learn that is unfamiliar to others in our field gives us the ability to make combinations that they canāt. This is the expert generalist advantage.
One fascinating study echoes this insight. It examined how the top 59 opera composers of the 20th century mastered their craft. Counter to the conventional narrative that the success of top performers can solely be explained by deliberate practice and specialization, the researcher Dean Keith Simonton found the exact opposite: āThe compositions of the most successful operatic composers tended to represent a mix of genresā¦composers were able to avoid the inflexibility of too much expertise (overtraining) by cross-training,ā summarizes UPENN researcher Scott Barry Kaufman in a Scientific American article.
Muskās āLearning Transferā Superpower
Starting from his early teenage years, Musk would read through two books per day in various disciplines according to his brother, Kimbal Musk. To put that context, if you read one book a month, Musk would read 60 times as many books as you.
At first, Muskās reading spanned science fiction, philosophy, religion, programming, and biographies of scientists, engineers, and entrepreneurs. As he got older, his reading and career interests spread to physics, engineering, product design, business, technology, and energy. This thirst for knowledge allowed him to get exposed to a variety of subjects he had never necessarily learned about in school.
Elon Musk is also good at a very specific type of learning that most others arenāt even aware of: learning transfer.
Learning transfer is taking what we learn in one context and applying it to another. It can be taking a kernel of what we learn in school or in a book and applying it to the āreal world.ā It can also be taking what we learn in one industry and applying it to another.
This is where Musk shines. Several of his interviews show that he has a unique two-step process for fostering learning transfer.
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First, he deconstructs knowledge into fundamental principles
Muskās answer on a Reddit AMA describes how he does that:
It is important to view knowledge as sort of a semantic tree ā make sure you understand the fundamental principles, i.e. the trunk and big branches, before you get into the leaves/details or there is nothing for them to hang onto.
Research suggests that turning your knowledge into deeper, abstract principles facilitates learning transfer. Research also suggests that one technique is particularly powerful for helping people intuit underlying principles. This technique is called ācontrasting cases.ā
Hereās how it works: Letās say you want to deconstruct the letter āAā and understand the deeper principle of what makes an āAā an A. Letās further say that you have two approaches you could use to do this:
Which approach do you think would work better?
Approach #1. Each different A in Approach #1 gives more insight into what stays the same and what differs between each A. Each A in Approach #2 gives us no insight.
By looking at lots of diverse cases when we learn anything, we begin to intuit what is essential and even craft our own unique combinations.
What does this mean in our day-to-day life? When weāre jumping into a new field, we shouldnāt just take one approach or best practice. We should explore lots of different approaches, deconstruct each one, and then compare and contrast them. This will help us uncover underlying principles.