Abstract from the actual paper: "Electrically charged particles, such as the electron, are ubiquitous. In contrast, no elementary particles with a net magnetic charge have ever been observed, despite intensive and prolonged searches (see ref. 1 for example). We pursue an alternative strategy, namely that of realizing them not as elementary but rather as emergent particles—that is, as manifestations of the correlations present in a strongly interacting many-body system. The most prominent examples of emergent quasiparticles are the ones with fractional electric charge e/3 in quantum Hall physics. Here we propose that magnetic monopoles emerge in a class of exotic magnets known collectively as spin ice: the dipole moment of the underlying electronic degrees of freedom fractionalises into monopoles. This would account for a mysterious phase transition observed experimentally in spin ice in a magnetic field, which is a liquid–gas transition of the magnetic monopoles. These monopoles can also be detected by other means, for example, in an experiment modelled after the Stanford magnetic monopole search."
'Cause that would really solve everything. If everyone switches to linux, the malware writers will just give up and not exploit security holes in linux, right?
(Or is linux just not popular enough among the computer-illiterate to be a good target for attacks?)
There are at least 400 students (2 big lectures' worth) that can come to my office hours, and of the 8 or so TAs, I'm one of two or three that are 100% fluent in English. There's also the issue that calc 3 is just hard the first time you see it, so even 5 hours of lecture/discussion a week might not address the specific questions and misunderstandings a student has. I'd say about 10 students come through my two office hours each week, and that's not that big a percentage.
And you're probably right, there's bound to be some ineffective teaching going on with that many teachers involved and some teaching for the first time.
I'm proctoring a test a week from now. We will check every student's ID. It's not quite common practice, but some instructors do insist on it.
The previous university I taught at provided a photo roster for each course. As a TA, I would go through this roster and make sure I recognized the students in my class.
Other people have mentioned actual in-class instruction being useless. As my students are getting ready to take their test, one of the main things I'm noticing is that I can't provide enough one-on-one instruction. At best, I have 5 people in office hours I'm trying to help at the same time. And that's still not personalized enough.
The internet is a great resource, but it's as good for undergraduate education as an encyclopedia. The biggest thing I learned in undergrad is _how_ to think about various concepts, not the concepts themselves - and you get that by talking to people.
"An education is what remains after you've forgotten everything you've learned".
There have been a few articles on manned space exploration recently, and it seems that the main issue never seems to be addressed: what's the point of sending humans to space?
Can someone explain to me why, at this point in history, we need to send humans out into space - along with the food and water and oxygen and extra safety measures they need to survive? The data collection, analysis, and transmission will be conducted by robots whether the mission involves humans or not. What sorts of decisions can they make on-site that won't be made from the control center, and what skills can they contribute that a robot can't match?
The big difference is that academics get money from grants and departmental funding, not from selling their papers. So, in theory at least, removing copyright takes away a musician's income, but not the academic's.
I tried it out, and the drawing demo seems to be the most promising application. In the absence of a touch-screen monitor, this could be a lot better than an external touchpad. And there's definitely something neat about using a tomato to play snake. Still a long way to go, though...
Slashdot Mirror
Abstract from the actual paper:
"Electrically charged particles, such as the electron, are ubiquitous. In contrast, no elementary particles with a net magnetic charge have ever been observed, despite intensive and prolonged searches (see ref. 1 for example). We pursue an alternative strategy, namely that of realizing them not as elementary but rather as emergent particles—that is, as manifestations of the correlations present in a strongly interacting many-body system. The most prominent examples of emergent quasiparticles are the ones with fractional electric charge e/3 in quantum Hall physics. Here we propose that magnetic monopoles emerge in a class of exotic magnets known collectively as spin ice: the dipole moment of the underlying electronic degrees of freedom fractionalises into monopoles. This would account for a mysterious phase transition observed experimentally in spin ice in a magnetic field, which is a liquid–gas transition of the magnetic monopoles. These monopoles can also be detected by other means, for example, in an experiment modelled after the Stanford magnetic monopole search."
'Cause that would really solve everything. If everyone switches to linux, the malware writers will just give up and not exploit security holes in linux, right?
(Or is linux just not popular enough among the computer-illiterate to be a good target for attacks?)
There are at least 400 students (2 big lectures' worth) that can come to my office hours, and of the 8 or so TAs, I'm one of two or three that are 100% fluent in English. There's also the issue that calc 3 is just hard the first time you see it, so even 5 hours of lecture/discussion a week might not address the specific questions and misunderstandings a student has. I'd say about 10 students come through my two office hours each week, and that's not that big a percentage.
And you're probably right, there's bound to be some ineffective teaching going on with that many teachers involved and some teaching for the first time.
I'm proctoring a test a week from now. We will check every student's ID. It's not quite common practice, but some instructors do insist on it.
The previous university I taught at provided a photo roster for each course. As a TA, I would go through this roster and make sure I recognized the students in my class.
Other people have mentioned actual in-class instruction being useless. As my students are getting ready to take their test, one of the main things I'm noticing is that I can't provide enough one-on-one instruction. At best, I have 5 people in office hours I'm trying to help at the same time. And that's still not personalized enough.
The internet is a great resource, but it's as good for undergraduate education as an encyclopedia. The biggest thing I learned in undergrad is _how_ to think about various concepts, not the concepts themselves - and you get that by talking to people.
"An education is what remains after you've forgotten everything you've learned".
There have been a few articles on manned space exploration recently, and it seems that the main issue never seems to be addressed: what's the point of sending humans to space? Can someone explain to me why, at this point in history, we need to send humans out into space - along with the food and water and oxygen and extra safety measures they need to survive? The data collection, analysis, and transmission will be conducted by robots whether the mission involves humans or not. What sorts of decisions can they make on-site that won't be made from the control center, and what skills can they contribute that a robot can't match?
The big difference is that academics get money from grants and departmental funding, not from selling their papers. So, in theory at least, removing copyright takes away a musician's income, but not the academic's.
I tried it out, and the drawing demo seems to be the most promising application. In the absence of a touch-screen monitor, this could be a lot better than an external touchpad. And there's definitely something neat about using a tomato to play snake. Still a long way to go, though...