Close Menu
    Trending
    • Turkish FM Believes Israel A Global Security Threat
    • Madonna Grateful For The Success Of ‘Confessions II’
    • US immigration agents involved in another fatal shooting
    • ‘Kylian is fine’: France ready, full-strength for Spain World Cup semifinal | World Cup 2026
    • Noskova gets revenge over Muchova in Wimbledon women’s singles final
    • 5 Ways to Unlock the Hidden Innovators Already Working for You
    • Why have their been so many record-breaking heat waves this summer?
    • Panasonic’s PV-460 Camcorder Stabilized Shaky Videos
    Benjamin Franklin Institute
    Tuesday, July 14
    • Home
    • Politics
    • Business
    • Science
    • Technology
    • Arts & Entertainment
    • International
    Benjamin Franklin Institute
    Home»Science»How the mathematician Gödel proved that not everything can be proven
    Science

    How the mathematician Gödel proved that not everything can be proven

    Team_Benjamin Franklin InstituteBy Team_Benjamin Franklin InstituteMay 27, 2026No Comments5 Mins Read
    Share Facebook Twitter Pinterest Copy Link LinkedIn Tumblr Email VKontakte Telegram
    Share
    Facebook Twitter Pinterest Email Copy Link


    May 26, 2026

    3 min read

    Add Us On GoogleAdd SciAm

    Why some mathematical theorems will always be unprovable

    A statement can be true or false. But as Kurt Gödel demonstrated, there will always be mathematical assumptions that can neither be proven nor disproven

    By Manon Bischoff edited by Daisy Yuhas

    A boy scratching his head at math written on a chalkboard

    Jose Luis Pelaez Inc/Getty Images

    This article is from Proof Positive, our friendly math newsletter that’s delivered to your inbox every Tuesday afternoon. Sign up today and read it first.


    My friends and colleagues often ask me to help with number-related questions. After all, I know a lot about math. Ironically, I’m actually quite bad at mental arithmetic.


    On supporting science journalism

    If you’re enjoying this article, consider supporting our award-winning journalism by subscribing. By purchasing a subscription you are helping to ensure the future of impactful stories about the discoveries and ideas shaping our world today.


    What many people don’t realize is that the academic subject of mathematics is not about doing quick sums and subtractions in your head. In fact, it wasn’t until I went to university that I understood what truly drives this abstract discipline. Mathematics is about creating worlds.

    To do this, you establish a foundation from a few conclusive assumptions, so-called axioms, on which you gradually build. Increasingly complex interrelationships emerge, until you finally arrive at highly complex topics at the forefront of current mathematical research. In the process, you move up from elementary sets to numbers, from there to functions and finally to geometry, topology and more abstract areas.

    Everything in mathematics therefore rests on the axioms, or basic building blocks, of the field. And it took until the beginning of the 20th century to come up with the axiom system we have today. That’s because its creation resembled a balancing act: On the one hand, you want to make as few assumptions as possible. On the other hand, these rules should provide enough flexibility to generate all modern mathematics. Moreover, the axioms should be intuitive. For example, it seems plausible to assume that an empty set exists.

    Ultimately, most experts now agree on a framework called the Zermelo-Fraenkel set theory with the axiom of choice, or ZFC for short. It consists of nine basic assumptions.

    All this mathematical world-building might lead you to think that mathematicians have it all figured out. But some of the most exciting and shocking findings in this field underscore the unknowability of certain truths, even within a system that has been carefully built from the ground up.

    Gödel Lets the Dream Burst

    In the 20th century, many mathematicians dreamed of finding a foundation for mathematics that was both complete (meaning all mathematical truths can be proven with it) and consistent (such that it did not lead to contradictions). But in 1931, a logician who was then just 25 years old, Kurt Gödel, destroyed these hopes.

    His first incompleteness theorem states that there are necessarily unprovable statements in all sufficiently strong, contradiction-free systems. As if that were not enough, he added a second incompleteness theorem, according to which sufficiently strong contradiction-free systems cannot prove that they are contradiction-free.

    That is, once you find a foundation powerful enough to produce the known correlations of modern mathematics, it necessarily contains statements that can neither be proven nor disproven. Moreover, the system itself cannot prove its own consistency.

    As befits a logical proof, Gödel’s argumentation was very abstract and high-level. Therefore, his colleagues initially hoped that the young mathematician had found a purely academic oddity that would have no practical implications. But they were mistaken.

    And the ZFC system has numerous examples of statements that cannot be proven—underscoring that Gödel was right. Probably the most famous is the so-called continuum hypothesis, which deals with the question of whether there is an infinity—or possibly several—whose size is between that of the infinity of all natural numbers and the provably larger infinity of all real numbers. Without extending the foundation of mathematics, we will never be able to get to the bottom of this question.

    This article originally appeared in Spektrum der Wissenschaft and was reproduced with permission. It was translated from the original German version with the assistance of artificial intelligence and reviewed by our editors.

    It’s Time to Stand Up for Science

    If you enjoyed this article, I’d like to ask for your support. Scientific American has served as an advocate for science and industry for 180 years, and right now may be the most critical moment in that two-century history.

    I’ve been a Scientific American subscriber since I was 12 years old, and it helped shape the way I look at the world. SciAm always educates and delights me, and inspires a sense of awe for our vast, beautiful universe. I hope it does that for you, too.

    If you subscribe to Scientific American, you help ensure that our coverage is centered on meaningful research and discovery; that we have the resources to report on the decisions that threaten labs across the U.S.; and that we support both budding and working scientists at a time when the value of science itself too often goes unrecognized.

    In return, you get essential news, captivating podcasts, brilliant infographics, can’t-miss newsletters, must-watch videos, challenging games, and the science world’s best writing and reporting. You can even gift someone a subscription.

    There has never been a more important time for us to stand up and show why science matters. I hope you’ll support us in that mission.



    Source link

    Share. Facebook Twitter Pinterest LinkedIn Tumblr Email Telegram Copy Link

    Related Posts

    Science

    Why have their been so many record-breaking heat waves this summer?

    July 14, 2026
    Science

    We finally know the name of a Maya mathematician

    July 13, 2026
    Science

    Scientists spot sugar in interstellar space for the first time ever

    July 13, 2026
    Science

    Mathematicians still don’t know the fastest way to multiply numbers

    July 13, 2026
    Science

    RFK, Jr. is turning his attention to the U.S. Preventive Services Taskforce

    July 13, 2026
    Science

    Can we geoengineer ourselves out of an El Niño year?

    July 13, 2026
    Editors Picks

    13-year NBA veteran Jason Collins dies at 47

    May 12, 2026

    Royal Navy returns to wind power with trial of robotic sailboats

    February 12, 2026

    Trump says he doubts ‘NATO would be there for us’ if needed

    January 7, 2026

    GoZTASP: A Zero-Trust Platform for Governing Autonomous Systems at Mission Scale

    April 9, 2026

    Opinion | The Religious Right Uses Christianity for ‘Control’

    January 14, 2026
    About Us
    About Us

    Welcome to Benjamin Franklin Institute, your premier destination for insightful, engaging, and diverse Political News and Opinions.

    The Benjamin Franklin Institute supports free speech, the U.S. Constitution and political candidates and organizations that promote and protect both of these important features of the American Experiment.

    We are passionate about delivering high-quality, accurate, and engaging content that resonates with our readers. Sign up for our text alerts and email newsletter to stay informed.

    Latest Posts

    Turkish FM Believes Israel A Global Security Threat

    July 14, 2026

    Madonna Grateful For The Success Of ‘Confessions II’

    July 14, 2026

    US immigration agents involved in another fatal shooting

    July 14, 2026

    Subscribe for Updates

    Stay informed by signing up for our free news alerts.

    Paid for by the Benjamin Franklin Institute. Not authorized by any candidate or candidate’s committee.
    • Privacy Policy
    • About us
    • Contact us

    Type above and press Enter to search. Press Esc to cancel.