And that, lads and lassies, is how you win people over. Epic presentation! And at x1.5, it was perfectly paced for learning. I used Mathematica for computational models a few years prior and really needed this primer. Best wishes!
I think that number as an output was somehow written incorrectly, now when you check the same info from Wolfram Alpha, you can see 3.18*10^6 (3.18 million). This must be the correct. 2021/4
Hey, Cliff, thanks for a great start video. This is a freakin' 'mazin' and way way way ahead of any other language on earth. Can you imagine trying to write this code in C++, or going through libraries trying to mash together classes and functions to get it done? You would be there for years, and still not as seamless, efficient, and bomb-proof. Thanks, Bud Kelly
Wonderfully constructed tutorial. The speed was perfect for mirroring the commands on another Mathematica screen, which left me with a slide show for future reference. Thank you!
I have discovered a new type of curve and it's not that hard to grasp but I've got a feeling it's really powerful. So graph a slice of circle and change one of the radius lengths then make the one radius progress towards the other radius in the simplest way linearly. play with this problem a bit and you should notice that for any triangle there is a corresponding curve for each of it's sides. Not only this but if you try the problem in 3d with tetrahedrons you will discover that for any tetrahedron there is a curved surface for each of its faces. This little discovery could lead to reductions in modelling curved systems not to mention it could make curved graphics a reality for most games. I just discovered this little trick last night.
I have question. When I plot 3d I have a different looking 3d plot than one in the video. Also for free form input the plot 2x-7=0 I get different coordinates. Can please someone tell me why its differing ???!
that delayed function is very confusing. I read the manual many times, i dont quite get it. from my understanding is the delayed function remains undefined even it solved an equation but the non-delayed or = is defined once inserted value.
(Sorry this comment is so late and probably not relevant to you anymore but maybe its at least helpful to somebody in the comments section) Are you talking about the horizontal line that appears about cells that are "Section headers" in a styled notebook? Removing them is pretty weird and unintuitive actually. You can't edit or remove those horizontal line (they are called CellFrames) in the same place where you edit the rest of a stylesheet. Instead, you go to the top menu > Format > Option Inspector... then click on Cell Options > Cell Frame Options, and you'll see a list of formatting options. To remove the line, just go to the right of the first option, CellFrame, where (if you are using the Default stylesheet) it will show {{0, 0} {0,1}}. Change this to {{0, 0} {0,0}} and the line should disappear. The "1" here specifies that the "top" side of the cell will have a 1-pixel wide outline. For more detailed documentation and a tutorial on how to do this with pictures that's easier to follow, go to reference.wolfram.com/language/tutorial/WorkingWithStylesheets.html scroll down to "Basic Editing" :)
![YoungBoy Never Broke Again - Missing Everything [Official Video]](http://i.ytimg.com/vi/dTYeMZGzOzw/mqdefault.jpg)
![Kodak Black - Catch Fire [Official Music Video]](http://i.ytimg.com/vi/A4ch-olIuZo/mqdefault.jpg)
And that, lads and lassies, is how you win people over. Epic presentation! And at x1.5, it was perfectly paced for learning. I used Mathematica for computational models a few years prior and really needed this primer. Best wishes!
#1 That's amazing
#2 There are only 3k turkeys in Turkey?! That's one small commercial farm in US standards.
I think that number as an output was somehow written incorrectly, now when you check the same info from Wolfram Alpha, you can see 3.18*10^6 (3.18 million). This must be the correct. 2021/4
Hey, Cliff, thanks for a great start video. This is a freakin' 'mazin' and way way way ahead of any other language on earth. Can you imagine trying to write this code in C++, or going through libraries trying to mash together classes and functions to get it done? You would be there for years, and still not as seamless, efficient, and bomb-proof. Thanks, Bud Kelly
Precisly what i was thinking
Wonderfully constructed tutorial. The speed was perfect for mirroring the commands on another Mathematica screen, which left me with a slide show for future reference. Thank you!
I have discovered a new type of curve and it's not that hard to grasp but I've got a feeling it's really powerful. So graph a slice of circle and change one of the radius lengths then make the one radius progress towards the other radius in the simplest way linearly. play with this problem a bit and you should notice that for any triangle there is a corresponding curve for each of it's sides. Not only this but if you try the problem in 3d with tetrahedrons you will discover that for any tetrahedron there is a curved surface for each of its faces. This little discovery could lead to reductions in modelling curved systems not to mention it could make curved graphics a reality for most games. I just discovered this little trick last night.
Nice intro! I really like that the automatically created slides are interactive.
i wholeheartedly love it sir, great job
Sir kindly make the video on, "how to find the residue"
Wonderfully done!
amazingly perfect, thank you Cliff
You deserve more likes! :) Nice tutorial, thanks for it!
Good video for Introduction.
You should speed up your presentation by a factor of two - this way I have an excuse to having difficulty following you tutorial.
Brooo.....LOL
😂
You can already do that with the video speed setting ;)
Can you help me?
graph the function
x = Cos[t] * (3+Cos[u]),
y = Sin[t] * (3+Cos[u]),
z = Sin[u]
t = [0, 2 Pi], u = [0, 2 Pi]
Skip past the first 5 minutes of this video if you don't care about multiple ways of entering plain text
A good introduction. Thank you!
How i can get mathematica 11 in Bangladesh?
convert 1Hz=10^-12 THz using Wolfram Mathematica
That was awesome
Please how we can define galois fields using in hyperelliptique curves??
Great Tutorial!
insane explanation
very good video, worth watching it!
very very very useful
thank you very much ..that was very helpful ..
exactly what I needed
I have question. When I plot 3d I have a different looking 3d plot than one in the video. Also for free form input the plot 2x-7=0 I get different coordinates. Can please someone tell me why its differing ???!
Amazing, thank you.
Amazing video! Thank you very much.
that delayed function is very confusing. I read the manual many times, i dont quite get it.
from my understanding is the delayed function remains undefined even it solved an equation but the non-delayed or = is defined once inserted value.
THANK. YOU.
How to remove a horizontal line, can you please help me?
(Sorry this comment is so late and probably not relevant to you anymore but maybe its at least helpful to somebody in the comments section) Are you talking about the horizontal line that appears about cells that are "Section headers" in a styled notebook? Removing them is pretty weird and unintuitive actually. You can't edit or remove those horizontal line (they are called CellFrames) in the same place where you edit the rest of a stylesheet. Instead, you go to the top menu > Format > Option Inspector... then click on Cell Options > Cell Frame Options, and you'll see a list of formatting options. To remove the line, just go to the right of the first option, CellFrame, where (if you are using the Default stylesheet) it will show {{0, 0} {0,1}}. Change this to {{0, 0} {0,0}} and the line should disappear. The "1" here specifies that the "top" side of the cell will have a 1-pixel wide outline. For more detailed documentation and a tutorial on how to do this with pictures that's easier to follow, go to reference.wolfram.com/language/tutorial/WorkingWithStylesheets.html scroll down to "Basic Editing" :)
Awesome video, Thanks very much!!
Thank you, guys!
You rock, man! 😎
Good!
Good job!
hello sir can u tell me how to solve two function deferential equations
Show us the equations.
Typing is hard.
hisset