Q-Source said:
What is the situation now among the scientific community?
Is it just a philosophical curiousity or is it more than that?
There are no doubt some that
believe that determinism can still be "salvaged". I've even read some rather complex philosophy that attempts to find a basis for determinism beneath the apparent nondeterminism of quantum mechanics itself. The problem with all this though, in the end is the same as it was for Einstein. They can't prove it. We have no experimental evidence to support these conclusions. Even if hidden variables do exist, if they remain hidden, then we can not say anything about them. Since the equations all seem to work just the way they are without this added assumption of hidden variables...we must conclude that the Copenhagen Interpretation is the superior model.
Basically, no matter what any physicist that I know of believes...what will be taught in a undergraduate or graduate quantum mechanics class will be based on the Copenhagen Interpretation. If the professor is philosophically minded (as physicists often are), then they will likely take a day or two somewhere to mention the EPR paradox, the hidden variable interpretation, and some other interesting topics. But those days are generally kind of, "hey look at this, isn't this kind of weird?" Now for your homework solve the Schrodinger equation for this and this, and so on...
I ask you this, because among general population -without formal education in Physics- is easier to retain or agree with the concepts that Eistein held (I think because he is popular), when in fact -as you mentioned- people like Heisenber and others have contributed with new knowledge about the Universe.
Q-S
BTW, I agree with Whitefork, my respects 
First, thanks. Second, you have no idea what you have just done...opened the door for a mini-rant by me about the state of science (particularly physics) education.
In my opinion, the reason that the general population finds it easier to accept Einstein's position, outside of his overblown reputation (by his own admission), is that they generally have zero formal education in modern physics. The majority of the population has either no high school physics, high school physics, or at the most an intro level undergraduate course in physics. These classes generally teach basic Newtonian mechanics, basic treatments of electricity&magnetism, simple optics, and if you're lucky they might passingly mention special relativity and QM without really giving them anywhere near a sufficient mathematical treatment. In other words, they barely teach you anything that wasn't around in the 19th century, and they don't even cover all of that. So if all they really teach you is classical physics, is it any wonder that you would almost certainly side with the classical interpretation? Throw in the fact that the math is above the level that most people are taught (how comfortable are you with complex math and partial differntial equations?), and you have most people saying "how could this be?"
This is why a lot of people have a hard time making the leap from classical physics to relativity and quantum mechanics. Classical physics seems intuitively obvious to a degree. You see it in action everyday. Relativity and QM seem counterintuitive, they result in things that don't seem to make sense based on what we observe every day...but when you start from the concepts that form the basis of those theories, all the conclusions are perfectly logical, and they conform to the experimental evidence.
In a way it is kind of stupid. They teach all these things from day one, and then all of a sudden when you decide to
really be a physicist they decide to inform you that everything you have learned up until now isn't really right. It's just an approximation...here is the way things really seem to be, and it looks much different than you think it should. If you can't let go of your conception of what you
think should be right, then you will probably never understand it all. There has to be a better way I would think...but that's how it is done.
