Exciting times for science.
well that's just, like, your opinion, man
Exciting times for science.
Could someone give me a quick run-down of what exactly this means? I'm naive on the subject
Sounds like a bunch of scientists declaring "We were right!" with pretty flimsy evidence. Who came up with "God Particle" the free press? I guess "Mass Particle" was already taken...Hey, whatever gets you those big money grants dude.
They've run hundreds of millions of tests, and there is a 5 in 10 million chance that they're data is wrong, I would hardly call that 'flimsy evidence'. There is no way in hell CERN would make this report if they only had 'flimsy evidence'.
As for the 'god particle' name, it was something that the media came up with, not the scientists who worked on it (the same media who stupidly claimed that the LHC had the possibility of detroying the Earth in a black hole).
The higgs boson is referred to as the god particle because a physicist referred to it as the, "goddamn particle" for being so hard to detect. Some publisher refused to stick to the name and shortened it to the "god particle".
I believe God particle refers to scientific assertion that this is the basic element of life.
The only problem being: what was before that and where did it come from and what was before that and where did it come from and what was before that and where did it come from and............................................................................................................................................................
You have to love "science".
One scientist wrote a book about the higgs-boson particle and science's inability to find it. He was so frustrated by the search that he wanted to call the book "The Goddamn Particle" but then changed it to "The God Particle". It even mentions this story in the article linked above.
Hey! They've discovered, or rather, claimed to have discvoered the Higgs-Boson Particle for the 234354 time! Let's give them a hand, shall we?
Here's a brief summary as I would explain it to my students. Now, I'm a physics teacher, not a physicist, so take it for what it's worth. On the other hand, I have a physics degree from the greatest university in the world, and two former students of my own have worked or are working at CERN, so... anyway.
1. The Higgs boson is a particle that helps us explain mass. Basically, the Higgs boson and the Higgs field describe how other things like electrons and quarks can have mass. Higgs is the name of the guy who proposed it; boson just means a type of particle with integer spin (spin is a property that comes up in quantum mechanics but isn't too important right now).
2. The Standard Model of particle physics has been around for over forty years. There's only one piece that of it that hasn't been verified, and that's the Higgs piece. We haven't verified it because we've never had the technology to do so.
3. Finally, in the LHC, we have the technology to find the Higgs particle. The US was going to build something like this called the Superconducting Super Collider over a decade ago, but US Congress cut its funding. Basically, by 'technology,' I mean a machine that can smash atoms together very, very powerfully. The LHC in Switzerland/France (it's on the border), is something like 28 km in circumference. It's huge. Yet it's also so sensitive that they had to move gophers from its proximity because a gopher running right next to or on the beam tunnel has a chance to be strong enough to misalign the beam.
4. The Standard Model predicts the Higgs particle, but it doesn't predict its mass. So we had to do a lot of searching to find it. We finally found its mass to be about 125 GeV/c^2 (GeV is Giga electron-Volts of energy; one electron-volt of energy is the energy that one electron gain when it falls through one volt of potential difference. Notice that you divide energy, GeV, by c^2 to get mass. That comes from Einstein's equation, E = m*c^2: see, you divide E/c^2 and it equals m).
5. The method of search was to smash many, many protons together and sift through the debris. There's a ridiculous amount of debris created every second. We have to sift through all of it to find the very rare smash-ups that create a Higgs boson. Even when we find one of those rare smash-ups, we don't see the Higgs itself because it immediately decays into other particles. We use our Standard Model theory to find predict how the Higgs should decay, then we look for these decay products. When we find these decay products, we reconstruct the collision from the recorded data and determine that there was a Higgs particle there.
6. We want to find the Higgs - or prove that it wasn't there, but it turns out it was - because we want to know how the universe works. There are some huge mysteries out there in physics right now. Since 1998, we've known that our universe, instead of slowing down in its expansion as you might expect after the Big Bang occurred 13.5 billion years ago, is actually speeding up its expansion. We have zero ideas why. Gravity should be pulling things back together, slowing the expansion down, but instead we're expanding faster and faster, driven by... something. We call it dark energy. If we hadn't found the Higgs where the Standard Model predicted, that would have given us a giant clue as to what's wrong with our current theories and, perhaps, dark energy. There's also dark matter, which we've been looking for longer than I've been alive, but we still haven't found. If we had verified that the Higgs did not exist - and it was looking like that might happen, since 125 GeV was about the last mass it could possibly be at - then we may well have been looking at a signpost that said, "Hey, resolve your dark matter mystery right this way." But, it turns out, we did find the Higgs. So, now we know that the Standard Model is right in every testable way. Which means we have to look in a completely new direction. That's good to know. People won't waste time, now, looking for faults in the SM (well, some will, and who knows, maybe it won't be wasting time, but now the conventional wisdom, at least, is to look at other stuff).
One final caveat: Just because something is reported with a greater than 5-sigma confidence doesn't mean it's right. In other words, just because the announcement said that there's only a .0000whatever0001% chance we're wrong doesn't mean it's correct. Just last fall, there were faster-than-light neutrinos reported by an Italian experiment called OPERA, and their statistics showed that there was only a .0000whatever0001% chance they were wrong. Their statistics were right, of course, but the statistics were being run on data gathered with a loose cable that made the neutrinos seem faster than they really were. So, what I'm saying is, don't just go by 5-sigma. That said, in my opinion, this result will stand. I think they did find it, and unlike the FTL neutrinos, I don't think they're going to have to retract this result.
I saw a couple of people say or imply that there had been earlier claims of finding the Higgs. This is not true. Maybe some crackpots out there claimed to have found it, but no big experiment ever claimed to have found it. There were many, many announcements narrowing the range available for the Higgs mass, as the research went on, but nothing even touching a discovery announcement. Also, there is tons and tons of background noise in the search for the Higgs signal, so I don't know what that comment about "they're looking at clear data with no background" meant.
Check out www.profmattstrassler.com and http://www.science20.com/quantum_diaries_survivor and Peter Woit's site "Not Even Wrong" at Columbia (where this announcement was basically made a couple of weeks ago via rumor... us physics geeks in the pocket protector crowd have been "buckling up" for a while now getting ready for this announcement).
Also, another thing to come out of the Higgs search is that SUSY, or supersymmetry, doesn't exist. At least, it sure doesn't look like it. That's real rough on people who have spent 30 years of their lives working on the theory. Got to feel for them.
Sorry to go on for so long!
Couple quick questions. Did they come up with a new age for the universe when accounting for the acceration of expansion? Sorry to ask such simple questions after such an eloquent post BTW but to continue I never see the possibility of something outside our universe causing the acceleration being explored. How was that ruled out?
The short answer is yes, physicists absolutely take into account the recently observed accelerated rate of expansion when determining the age of the universe. The estimates of the age of the universe are tied into all kinds of things in cosmology, like the cosmic background radiation left over from the Big Bang, for one. But if you're asking, could dark energy and the cosmological constant end up screwing over everything and totally revising our picture of the universe, the answer is, well, yes. Probably not. Probably it will turn out to be something not too world-defining. But could it turn out that the resolution of the dark energy question is as revolutionary as the resolution of the ether question that dominated the second half of 19th century physics (that resolution being space-time and relativity)? Yes, there's a chance it could. In my opinion, that'd be really cool.
To answer your other question theories of things "outside our universe" are all over the place. I think New Scientist magazine has run at least one cover story a year on the "multiverse" for the past decade. Do a search on M-theory or the multiverse or the landscape. There hasn't been any "ruling out."
I'll have to read more multiverse theories. The ones I've seen seem to deal with simultanious universes.(mostly addressing why we can't find dark matter)I haven't seen any pertaining to universes beyond ours.
I'm confused on why you say this undercuts supersymmetry. The last reports I saw prior to this announcement were that the discoveries showed a mass consistent with supersymmetry. Did this result come out with a different mass?
Basic answer is that a) Higgs mass of 125 GeV is ok with what supersymmetry predicts, but b) if Higgs does have a mass of 125 GeV, then supersymmetry also must predict a bunch of supersymmetric particles that we just don't see any evidence for. Another way to think of it is that a light (125 GeV) Higgs is actually salt in the wound for SUSY because a heavy Higgs would allow for supersymmetric partner particles to be heavy, and we haven't ruled out the heavy ones yet. But a light Higgs actually requires light supersymmetric particles, and a lot of those we _have_ ruled out, as far as I know.
As for how we've ruled out the supersymmetric particles' existence (at least a lot of the light ones, and again, they need to be light to do what they were postulated for in the first place, like explain dark matter, etc.), I believe the main way is like this: When the LHC smashes zillions of protons together, there is all this collision debris. When we sift through the debris, we can find decay products that point to particle P decaying into particles X, Y, and Z. So far so good. But now, if SUSY were true, and supersymmetric particles did exist, then in addition to particle P decaying into particles X, Y, and Z, we should also have, for example, particle sP decaying into particles X, Y, and Z. So, our production rates of X, Y, and Z should go up because in addition to particle P, we're also producing sparticle sP, and they both decay into X, Y, and Z. But alas, sad for the SUSY enthusiasts, we are not seeing any excess creation of X, Y, and Z. We are only seeing the rates exactly predicted by the Standard Model, no more, no less.
I'm sure there are other ways that SUSY is being ruled out, too. Here's an article from SciAm: http://www.scientificamerican.com/article.cfm?id=is-supersymmetry-dead and the situation has only gotten worse since then (published in late April).
Again, I'm a physics teacher, not a physicist. Some particle physicist could give you much better answers, I'm sure.
Very interesting. It appears that this would undercut string theory as well, since, as I understand it, SUSY was a bit of a byproduct of the development of String Theory, and ST depends on SUSY. Or am I wrong on that?
The article you link leaves hope that SUSY might still be true, but in the end, with current tools at hand, it suggests that it would be impossible to prove or disprove, so not an area that science can pursue at this time.
I appreciate your thoughts. As a layman with an interest in physics, I find this topic fascinating, and I only wish I had a greater understanding of the concepts and, in particular, the math underlying it.
And I can't help thinking that while your former classmates are getting a lot more acclaim, you're doing more for society.
(Sorry if this shows up twice, I tried posting 30 minutes ago and it didn't work)
I just wanted to add a couple things. I didn't read all the throughly, but I thought I'd chime in from CERN. I'm a grad student over here.
The Higgs mechanism and particle have been predicted in one way or another for ~40 years, so this is huge. It's not often you have these timescales, several experiments, and the (not 100% yet) correct answer. We're not quite ready to say it's the Higgs boson as predicted. Although we know something similar is there, we have to measure the properties to see how they line up with a couple different models (e.g. Standard Model or Super Symmetry).
The mechanism gives us a way to give fundamental particles mass, e.g. quarks, electrons, W bosons, but not the photon! It's starts getting more complicated, but without this the theory has massless particles and we have to put in the masses 'by hand.' It's a common misconception that the mechanism gives mass to everything. This is wrong and easily seen in the case of a proton, where the quarks make up 1% of its mass. The rest comes from binding energy
Michigan played a role! There are many factulty and students working (and who have worked) in Ann Arbor and at CERN on the Higgs search. Even more, the tubes for the some of the muon detector in ATLAS were built at Michigan.
I am not an experimental phycisist, but I have my doubts that they will ever have a clear answer. If the Higgs Boson is as small as they say it is, how will they detect it over the noise in their assay? They have already had some false starts where they thought they got it when in reality, it was a glich in the collider (experimental error). How do you develop a readout so sensitive the differentiate over this noise/error?
Usually, in electronic readings, all data goes through an initial background subtraction using a bode plot. Therefore, whatever data these guys are looking at already has no background/noise in it. Also, if there was a trial that was glitched, that trial would be thrown out immediately.
I should also say that since their hypothesis is so similar in value to their null hypothesis, they required n = 100 million + in order to verify, and each trial would have its background subtracted before statistical analysis.
They are running 40+million per minute though, right? I thought that number seemed insane, but I guess it makes sense now.
I follow this site religiously. It is not only the super highway of information on everything Michigan athletics, but everything.... I am always amazed with the depth of comments, the broad spectrum of knowledge,and of course, the proper use of grammar!
Thousands of years and we still study things by the same flawed method that has restricted our greater understanding from our beginning. This is what we think we know now let's try to find things to fit the theory, smh. This is why we believe the end of the Universe is the end of all things, as we once thought our galaxy was the end, as we once thought our solar system was the end, as we once thought our planet was the end, as we once thought our local land mass was the end. It's almost cute it is so naive and dogmatic. It is our nature I suppose. I'll enjoy reading about how shocked they are to find out that things don't work how they thought and be frustrated that they didn't figure it out more quickly because they were so intent on proving things they didn't know.
I love Sports Science! Interesting stuff!!
I don't think TheGeneral has a firm understanding of how science really works, & it's pretty clear that he's projecting some invented mindset of scientists everywhere into his description of how we investigate things. In fact, there is inherent irony in the way he scoffs at how we 'once thought our galaxy was the end, as we once thought our solar system was the end ...' etc. etc. The reason we once thought these things is because our scientific method allows (more like insists) that we reject old models in favor of new ones with more evidence. TheGeneral thinks he will enjoy reading about how shocked scientists are to discover that things didn't work out the way they expected? Guess who else enjoys that? Yes, scientists. I feel pretty confident about this because I'm one of them - or at least, I'm currently working towards a neuroscience PhD & I spend basically all day every day working on my research projects. In my time in the lab so far, I've already had numerous unexpected things jump out of the data at me. It took me by surprise & disproved the nice little theory I had in mind, but I loved it because it made sense & it was fascinating. I can't speak for everyone, but I can honestly say I'm committed to getting a more accurate picture of the 'truth' rather than only paying attention to findings that support what I want to be true. If I'm understanding TheGeneral's complaints correctly (which I'm not even sure I am, because it seems like a vague, pointless rant), I find them to be baseless & inaccurate.
I appreciate you supplying more evidence to my point. If I do not express myself well I apologise. It certainly is not my strong suit. But I would greatly appreciate you continuing to find proof of your misconception. It builds my case
What you call a 'misconception' of mine was actually a novel, undeveloped idea that I entertained, which led to me ask the question: is it correct? I did the experiments & discovered that no, it was not correct. I don't mind being wrong about that at all ... in fact I love it. I discovered something really cool (to me). That's called progress. You have to ask specific questions in science & test them. A hypothesis lives or dies. Either way, science wins.
Or it could be viewed that we would be further along if we asked new questions. We could extrapulate the same information whilst moving forward. I love what you do and commend you for it. I just don't embrace some parts of methodolgy.
I can think of about 100 different interesting tangents from this thread but I'll save you that lol. Best of luck in your research.
In all seriousness, if you aren't trolling,then you clearly just don't know what you are talking about. I highly suspect that you have no idea how science works and just listen to the mass media.
Earlier you commented on how we thought the edge of the continent was the end of the world, followed by our solar system, followed by the edge of our universe. You used this as an example of why the scientific method failed. Unfortunately, you have this exactly backwards. This is an example of why the method works. When ships could not travel around the world, we were limited by technology and had no way to know that earth was round. Additionally, the formal scientific method had not even been developed at this piont. When technology advanced sufficiently to prove otherwise, we realized that the earth did not have an edge and was round. As telescopes advanced we were able to better understand the fact that there is much more than just our planet and solar system and that the universe is expanding.
I'm currently pursuing a phd and part of my thesis will be an exploratory project. It's high risk, high reward. My hypothesis is based on a number of seperate experiments and i believe that with the technology my lab developed I will be able to show that a number of molecular pathways converge in this process. If everything goes perfectly, this type of project has a lot of potential. If not, then many many thousands of dollars, the lives of many mice, and several years of time will just show that I was wrong. My other experiments involve much less risk and much more modest potential. However, that balance is necessary in order for me to finish something productive. All of these experiments involve asking a novel question, but they are all based on previous observations and expectations. I can't just go in saying, i have no idea how this process works. Lets test every possible combination or just go in blindly and try to observe something. If you don't control your parameters to test for somethign specific, then you can't test for anythign at all.
I realize my description is vague, but my point is you have some major misconceptions about science. The scientific method is proven to work and there is no realistic, efficient, and economical alternative.
When ships could not travel around the world, we were limited by technology and had no way to know that earth was round.
Well, it kinda depends what you mean by "know." OK, so the ancient Greeks didn't have seaworthy ships that they could see sail over the horizon and then come back, but travelers could observe that the positions of stars look different depending on how far north or south you were.
~240 BC Eratosthenes estimated the circumference of the earth. Having heard that on the summer solstice the sun was directly overhead in Syene, but cast a shadow in Alexandria, he used the difference in angles of the shadows to make his calculation.
Did not know this. My overall point is still right either way though.
So your point is that scienctific models of the world are constantly changing?
...and you'd prefer instead they stayed the same?
Everyone knows that scientific advancements have never done any good for anyone ever.
I like this guy. We could be friends.
Tell me the secrets of the universe, oh supreme one. This is the way science works... and you'd be hard pressed to tell me we haven't made progress. The very reason you can post on this website is because of what you call 'flawed' science.
Nope. It's because Al Gore got bored one day and decided to give this to us.
This is the essence of science and the scientific method - you seek to fit an existing model. But, really most scientists will tell you that the best kind of data is the one that repeatedly does NOT fit the model. That is when you know you have discovered something. Again, statistical analysis is required for all non-discoveries just like discoveries. This method is what has brought us modern computing, television, forays into space, and the polymer revolution. I'd say it works great :)
This is what we think we know now let's try to find things to fit the theory, smh
There is generally a good reason that "we think we know" things... It's not as if the Higgs-Boson theory was just made up yesterday by some guy so he could get some money to build a particle accelerator...
I don't think it means what you think it means.
I'm not sure you know what dogmatic means. Instead of going the route where dogmatic pertains to church doctorines or principles, if you define dogmatic as arrogantly accepting assumptions or unproved theories as unquestionable fact, it actually fits in quite well in TheGeneral's odd ramblings.
If the existence of the Higgs Boson were "unquestionable fact" why would we be looking for data to support its existence?
Disputing and doubting are encouraged within science; in fact they are essential to its progress. Just look at the wording from the press conference today -- the announcement of the discovery is steeped in caution and the speakers are careful to express the uncertainty of their knowledge.
Of course dogmatic beliefs are not confined to religion. But this is quite a good demonstration of the opposite of dogma, which in contrast involves complete certainty and is not informed by evidence.
Dogmatic beliefs don't change. That is why it is humorous that The General is criticizing science for changing and for being dogmatic in the same paragraph.
"This is why we believe the end of the Universe is the end of all things, as we once thought our galaxy was the end, as we once thought our solar system was the end, as we once thought our planet was the end, as we once thought our local land mass was the end."
I'm not getting in a scientific debate with you, I'm debating on whether or not he used the word "dogmatic" appropriately. Since the above sentence preceded the sentence where he used dogmatic, we can assume this is what he intended that word to apply to. This sentence includes beliefs that were presented in a dogmatic manner in their age. Even though there were some that pursued the truth about these things, at the time, most unquestionably believed these things he mentioned even though there was no proof. Based on this short analysis of his writing, his usage of dogmatic was more than appropriate.
Are you going to share with us your alternative methodology?
Appreciate you engaging rather than going off on preconceived notions which coincidently was my point. I am fascinated by all new discoveries as are these scientists. I just don't like the need to make things fit first. Observe first.
Not sure why you think they made this "fit" or that the scientists, in general, seek to make data "fit." They had a model for what they believed happend, and then sought to test if that was true. That's research 101! It's not like they're manipulating data. I think this is hard to appreciate, but the signal for the Higgs particle could have been found in a lot of places. Heck, they could have found multiple signals for all anyone knew. The fact that it matches the theory is a good thing, and will hopefully help lead to many others.
The point is though, what is the alternative? Postulating a theory, then seeking evidence to support or refute it, is fundamental to scientific research. It doesn't mean you have pre-conceived ideas that are not open to change. It provides a formalized structure for experimentation.
One of the great comments out of CERN today (saw it this morning but don't recall which scientist made it) was that it would actually be more exciting if the Higgs-Boson were not found because it would mean everything was more complicated than they thought.
A scientist down the hall from my office has a sign on his door that says 'The only correct preconceived notion is that anything is possible.'
That rings very true!
That is all.
Is there a private message function on this site? I'd like to get your thoughts on something without cluttering the board more than I have.
Exploratory science is typically not done because it is high risk and very difficult to get funded. With the massive lack of funding that keeps getting worse why would someone give you money to do something if you don't know what you expect to see? How can they be convinced that you are doing anything worthwhile?
You run an experiment because other observations have been made either through experimentation or theory (as is the case here) that allow you to predict what may happen, which is your hypothesis. Hypothesizing on something that doesn't exist is possible, but then they can't know what parameters they need to control. Without this control, they would have no way to analyze their trillions and trillions of data points. It is difficult, if not impossible for someone to look at that amount of data and come to any new conclusions. However, if you have a preconceived notion of what you expect, then you can see if that's true or not by developing ways to test that idea.
While most great scientific breakthroughs were accidental discoveries while they were testing for somethign else, this doesn't mean we can just not run experiments willy nilly. It is necessary to have a preconceived idea of what will happen so that we can control the environment sufficiently to test for something.
If you're a researcher you can't just go out and observe things and have people give you money for it though, you have to be working toward some goal, or have something in mind that you wish to accomplish.
No one is handing out checks and saying, "Here scientist! Go do science!"
"I'll enjoy reading about how shocked they are to find out that things don't work how they thought and be frustrated that they didn't figure it out more quickly because they were so intent on proving things they didn't know."
This seems like a cynical view of how science works in general to me.
You know, some of the most brilliant discoveries have occurred because we find out that things don't work as people thought they did, but that's why you engage in research like this, yes? To test a hypothesis, and if what you find is that something else is the case, then that's fine too.
Indeed, there is even a "Brilliant Mistakes" award that is given by the Wharton Business School, I believe, who have made innovative discoveries that were the complete opposite of the expected results of their experiments. It is knowledge all the same.
As for the second half of this statement, I imagine that they are frustrated that a Large Hadron Collider was not available to Peter Higgs back in the 1960s when he first spelled out his theory. Come to think of it, the slouch at Bell Labs that didn't come up with the first rudimentary transistor before 1947 should be posthumously canned perhaps. I personally blame Galileo for not utilizing the Hubble Space Telescope better actually. The whole point is that discovery builds on discovery, and advancements in technology are part of that, so I am pretty sure they are excited about this, not frustrated at all.
Are you seriously criticising the scientific method? What would your rather have us use? Magic!?
"some parts" or is science taken on faith to be infallible? History doesn't bare such principles well.
This doesn't make any sense. "Science" cannot be "infallible" because it isn't a succeed-or-fail concept. It's like asking "Are toenails taken on faith to be infallible?" Its a nonsense noise, which history dos not "bare" well.
The scientific method is just that - a method. It has proven over time to be succcessful at directing research so that it is more accurate and efficient. I'm not sure what alternative you are proposing, because all you have been doing is casting stones at strawmen.
Care to enlighten us as to the alternative you propose? Make sure you do some homework on the scientific method (which I don't feel very confident that you even understand) before responding.
Nothing in science is infallible. It is just assumed to be the best explaination until something better comes along.
If someone were able to come up with a better scientific method, people would adapt and begin using it.
This is of course, aside from the fact that scientific discovery rarely ever follows a linear progression. It's often a very messy process.
Science has seen that our physical universe began at a specific point in time.
Science has proven that all matter is composed of energy. (e=mc2)
Their explanation....................................a big explosion?????
If we piled the materials making up the stadium together and exploded it, what would the scientific method tell us?
Ignore the last bit, because I'm not trying to start that discussion, but I think you're misrepresenting the scientific methood.
My mind is the end of all things. And I'm just imagining all of you.
(Insert RDT joke that Seth is bored with)
Now I have the perfect excuse if I ever become overweight. It's simply because I'm so damn attractive I can't keep the damned higgs-bosons off me!
It explains much.
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It is really the "God Damned" particle as it has NOTHING TO DO WITH "GOD." I hope this doesn't turn into something like "One nation under God" someday as the writers truly had another meaning in mind. Ugh...
Doesn't everything have something to do with God?
Women have a brain a third the size of a man, it's science. Ron Burgundy
I Judy hope they find something worth while.. Like the cure for AIDS or Cancer..i'm not sure what a "god particle" is.. Just the name alone irks me as a religious person
Yeah and in the 1700's they just wished they would find something worth while like a cure for small pox instead of wasting resources on this useless electricity stuff
Hawking had a bet against Professor Kane from Michigan and he lost $100
In an interview today, Hawking referred to Michigan as Michigan University :(
"For this reason I had a bet with Gordon Kane of Michigan University that the Higgs particle wouldn't be found. It seems I have just lost $100."
Why would the discovery of a God particle be exciting for science? Wouldn't proof of the existence of God mean the science is invalid and that the universe really is 7 days old and that all of religious Bible thumpers are correct? That would hardly seem like a good thing for science.
This is blasphemous. My monotheistic ways have proven " scientists " wrong time and time again. You're all lucky my God is merciful. Dinosaurs, Atoms, hybrid cars.... That's just the devil trying to trick you.
Now go out and buy an American made SUV or Truck and take your family acrossed America. Be sure to stop and enjoy the things that make America and Jesus great.
I just wanted to add a couple things. I didn't really read everything throughly, but I thought I'd chime in from CERN. I'm a grad student over here.
The Higgs mechanism and particle have been predicted in one way or another for ~40 years, so this is huge. It's not often you have these timescales, several experiments, and the (not 100% yet) correct answer. We're not quite ready to say it's the Higgs boson as predicted because, although we know something similar is there, we have to measure the properties to see how they line up with a couple different models (e.g. Standard Model or Super Symmetry).
The mechanism gives us a way to give fundamental particles mass, e.g. quarks, electrons, W bosons, but not the photon! It's a common misconception that it gives mass to everything. This is wrong and easily seen in the case of a proton, where the quarks make up 1% of its mass. The rest comes from binding energy
Michigan played a role! There are factulty and students working in Ann Arbor and at CERN on the Higgs search. Even more, some of the tubes for the muon detector in ATLAS were built at Michigan.