The Skeptical Teacher

Musings of a science teacher & skeptic in an age of woo.

Posts Tagged ‘pseudoscientists’

More Physics Woo: The Einstein Cranks

Posted by mattusmaximus on May 19, 2009

What the hell is it about Einstein’s theories of relativity?  For some reason, physics cranks seem to have a fetish for trying to undo or modify relativity in an effort to push their own “theories” of physics.  In the process, these folks often display a glaring lack of understanding of the very physics they are proposing to overthrow, and sometimes they even venture into the realm of conspiracy mongering. I like to refer to this particular species of woo as the “Einstein cranks.”


In particular, I have had an interesting series of discussions recently with one such physics crank on the JREF Forum. Allow me to illustrate some examples of how various physics woo-meisters often get physics dead wrong and display logical fallacies of all stripes when making their arguments.

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Posted in physics denial/woo | Tagged: , , , , , , , , , , , , , , , , , , , , | 38 Comments »

Real Scientists vs. Wanna-Be’s

Posted by mattusmaximus on February 16, 2009

I just got finished attending a couple of days of the joint AAPT & AAAS winter meeting in Chicago, and I must say it was an interesting couple of days! It’s always nice to attend these conferences so that one can connect with the wider scientific & teaching community out there.

While I was at the conference, I attended a fascinating series of talks on some of the latest research coming out of FermiLab, the perfect material for a total physics geek like me. The most interesting stuff at that symposium was the work being done at FermiLab on attempts to detect the Higgs boson and even dark matter!


Briefly, the Higgs boson (also called the Higgs field) is a fundamental particle of nature which is believed by particle physics theorists to exist “beneath” all other particles. All the other fundamental particles of nature – from leptons to quarks to gluons and photons (plus many more) – interact with the Higgs field in a way which determines the mass of the particle. Those particles which interact more strongly with the Higgs have a higher mass. And the Higgs boson forms the last, big missing link in what is called the Standard Model of particle physics (kind of like a periodic table for the fundamental particles of nature). In order to complete the Standard Model, experimentalists need to find evidence of the Higgs in particle accelerators.

The speaker on the Higgs research openly stated at one point in his talk that if scientists at FermiLab or the Large Hadron Collider couldn’t ever find evidence of the Higgs, then that would be more exciting than if they did find such evidence. This is because if no evidence of the Higgs could ever be found, then it would call into question the entire structure of the Standard Model. This would then, in turn, lead to a new revolution in physics, just as Max Planck’s quantum hypothesis in the early 20th century led to the (then) new field of quantum mechanics.

The next really interesting moment came when I was listening to the scientist trying to detect dark matter at FermiLab. Briefly, of all the matter in the universe, only about 3% of it is what we call standard luminous (or baryonic) matter. Most of the rest, about 85-90%, is so-called dark matter (not to be confused with dark energy) – which is matter that emits no electromagnetic radiation at all. The only manner in which we can detect dark matter is through its gravitational influence upon normal matter. Incidentally, three big lines of evidence converge to convince us that dark matter is a reality – gravitational lensing effects, peculiar behavior of galactic rotation curves, and the motion of galaxies in galactic clusters.

However, for the physicist researching dark matter, this isn’t enough. In order for dark matter to really be established as the real thing, he and others in the scientific community want to find it in the lab. So he’s undertaking a series of bubble chamber experiments at FermiLab in an attempt to directly detect dark matter particles. And all physicists acknowledge that dark matter, as yet, has no place in the Standard Model – so this means the Standard Model only describes about 3% of all the matter in the known universe!

I’m not going to go into any more of the details of these talks, but I just wanted to mention something very important that I noted in them. In both cases, the scientists involved in this cutting-edge research were very clear to point out how little we really knew about these subjects. They also made a big point to note that they were perfectly happy to have their experiments fail to detect the Higgs and dark matter, because that would mean we have to completely rework many of our theories of physics.

Far from being rigid dogmatists, as many inaccurately portray the scientific community, these people displayed what real science is all about – putting your hypothesis on the line and letting the observations & experiments be the final arbiter of what’s right and what’s wrong. Real science continually questions its assumptions.

It has been my experience that the real dogmatists are the pseudoscientific cranks, who are basically wanna-be scientists. They latch onto an idea they think is cool, but in spite of all evidence to the contrary they’ll hold onto these discredited ideas. And, in many cases, after they are unable to offer proof of their ideas, the cranks will attack the scientific community for being “dogmatic” and – sometimes – even accuse it of a conspiracy to hide the “truth”. Worse yet, some pseudoscientists propose ideas which aren’t scientific at all – because they can never be falsified – yet they want these notions to have the elevated status of science anyway. They think that by putting on a lab coat and calling their ideas science, that somehow it magically becomes science!

No amount of woo will ever interest me as much as real science. Even if these attempts to detect the Higgs boson and dark matter fail utterly, we’ll have learned so much in going through the process of scientific exploration that it will have all been worth it. And that’s what makes real science so exciting – we don’t know what nature has in store for us!

In closing this post, I’ll reference the words of a great skeptic & advocate for science, Dr. Phil Plait – astronomer & the president of the JREF – when he said: “The universe is cool enough without making up crap about it!”

Posted in scientific method, Uncategorized | Tagged: , , , , , , , , , , , , , , , , , , , , , | 4 Comments »

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