I use a Wacom Bamboo tablet and a Blue Snowball microphone for input. Xournal allows me to write on PDF slides, which I make with Beamer and LaTeX. I use FFmpeg to record audio/video and process the results. If I need to edit the videos (i.e. delete parts I screwed up), I use Kdenlive. That's unnecessarily complicated. Most people I know use recordmydesktop or camtasia, which take care of the details for you.
Wow you really opened my eyes a bit more with this Video! Always nice to understand the deeper concepts in physics and it is so rewardign to see the Connections between different Topics in QM!
The tablet comes with one replacement nib. I've had mine for 9 months or so, probably using it for a few hours a week, and haven't replaced it yet. As the nib wears down, if you rotate it around so it doesn't wear too much in any one place, it stays usable.
I use the Wacom Bamboo Splash (CTL471). I think the active area is 5.8 inches by 3.6 inches. For my purposes, it's important that it work with Linux, which it does quite well with the xorg wacom input device driver.
Wait, what happened to the normalization constant, A? T = Aexp[-iEt/h] ? It is not included in the calculations. Or are we just assuming it is 1 for now?
Its a great work the guy Brant Carlson is doing . Hats off :) but , its creepy that most of the people are pointing out the silly mistakes . couldn't you people take this as a informal learning with ordinary mistakes we all do :)
If you can claim that motion is the state of some space compared to it's adjacent space - it would be improbable for a state to correspond with that of a spaceship on Earth's surface - , because there's no experiment for determining who's in motion and who's at rest, then the well orderable real numbers could provide a dimensional yardstick for modelling a sequence of states, resolving the omnipotent existential guarantee problem that is required for physical accounts of the world including a - Gregorian* - temporal dimension. * Pope Gregory the thirteenth rewrote the calendar.
Best quantum mechanics lecture ever! Congrats Mr. Carlson!!!
I use a Wacom Bamboo tablet and a Blue Snowball microphone for input. Xournal allows me to write on PDF slides, which I make with Beamer and LaTeX. I use FFmpeg to record audio/video and process the results. If I need to edit the videos (i.e. delete parts I screwed up), I use Kdenlive. That's unnecessarily complicated. Most people I know use recordmydesktop or camtasia, which take care of the details for you.
Wow you really opened my eyes a bit more with this Video! Always nice to understand the deeper concepts in physics and it is so rewardign to see the Connections between different Topics in QM!
The tablet comes with one replacement nib. I've had mine for 9 months or so, probably using it for a few hours a week, and haven't replaced it yet. As the nib wears down, if you rotate it around so it doesn't wear too much in any one place, it stays usable.
I use the Wacom Bamboo Splash (CTL471). I think the active area is 5.8 inches by 3.6 inches. For my purposes, it's important that it work with Linux, which it does quite well with the xorg wacom input device driver.
Wait, what happened to the normalization constant, A? T = Aexp[-iEt/h] ? It is not included in the calculations. Or are we just assuming it is 1 for now?
Superb. Thank you so much for making these videos available.
Excellent job professor unarguably the best.
Its a great work the guy Brant Carlson is doing . Hats off :) but , its creepy that most of the people are pointing out the silly mistakes . couldn't you people take this as a informal learning with ordinary mistakes we all do :)
I want to buy one tablet but here in Peru, they do not sell the nibs. How long does a bamboo pen last?
Saw that 0*infinity>=h_bar/2 and I can already hear math majors screaming in agony
what's the size of the tablet you use?
didn't you forget the normalization constant for the time-part? would the answer change if you applied that?
Laurens Beijnen Not really, that constant that would A squared would just be some normalization constant assuming A is not a function of time.
what program do you use to do this tutorials??
There's a typo at 3:45; you wrote X(t) instead of X(x)
so stationary states are hypothetical? ??
Gostei da aula!
Excellent!
Quantum god
Sir I m from india ..can you please suggest me your kind of software and hardware gadgets used for the video to record
Thank you so much
If you can claim that motion is the state of some space compared to it's adjacent space - it would be improbable for a state to correspond with that of a spaceship on Earth's surface - , because there's no experiment for determining who's in motion and who's at rest, then the well orderable real numbers could provide a dimensional yardstick for modelling a sequence of states, resolving the omnipotent existential guarantee problem that is required for physical accounts of the world including a - Gregorian* - temporal dimension.
* Pope Gregory the thirteenth rewrote the calendar.
Nice
legend!
You made a mistake on 3/7 slide... it should be X(x) not X(t) in the probability distribution part...