WEBVTT

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Hello In this lecture will start with icy surface.

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Now many click on ISIS her first blood.

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You have some kind of this blog know.

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What is this ISIS surface will actually plot the values of similar magnitude.

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For example this green curve means the temperature is 175 Kelvin.

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Along this green blood.

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What if I click on screen light you see I have a glass something like this.

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If you see the blue blood the bank you can change the number of values.

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For example if I write levels and I write one seventy five and then one eighty five and I click on plot.

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You see this is one eighty five and this is 175 five is close to the source because that is which is

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higher to the source.

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So this is how I see Cyprus works

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fine.

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Now this plot is the line plot line plot is basically the outline of your model and when you select

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line plot and you plot the template here we get some kind of this at the Red means the higher temperature

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that is the source and the blue is the lower temperature that is the sink.

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You see if you have a complicated geometry then this kind of plot is very useful.

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Of course you can select their two line color table and all these things fine.

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Now we have covered line.

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We'll go to control plot as we have here.

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Control plot what is the contour plot as you read in geography.

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Going to connect values of equal height.

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Similarly here it is connecting values of the expression temperature.

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Here I have made a level 10.

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So it has 10 different level of temperature change.

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And if I zoom in you will see that each level is marked with a separate color.

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So quantum type you can choose different option.

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For example a line.

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Fair to you.

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So depending on your need you can select your contour.

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You see this is the high temperature region.

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This is the low temperature region and the density of the country's higher because the temperature go

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down is higher near the source and sink.

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Fine.

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Now let's jump in to streamline a Streamline is one of the most interesting plot.

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Personally for me let's go to the stimulate plot.

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So you have a source here in my simulation and we have a sink.

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Now when I click on streamlined plot you see the lines coming from the source and ending I think.

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Now this is quite interesting because when you have a complicated geometry you are interested to know

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the direction and the arrows pointing towards the direction of the source or sink or whatever geometry

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you are working on.

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This could be a good verification if your simulation is working.

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Okay.

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Because the arrow should point towards sink whenever you are doing it doing uh thermal simulation like

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this one you can of course select the different settings inside the stream line which I will left to

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you to explore and you can change the expression If you want to.

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For example it is plotting the heat loss at this moment.

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You can definitely change according to your wish and your physics.

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So of course uh Sarah Rubin you can select line plot and if you don't want the arrows you can do that

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too.

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If I select none then none of the arrows will be plotted.

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So this is the kind of plot you get but this is the streamlined plot so now let's see the airline plot

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this is the arrows on the surface it will plot the arrows on the surface of the model.

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So you have the source here.

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So heat is going in and then this is the thing.

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So heat is coming out.

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That's why we have the arrows here.

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So this is quite simple.

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Also we have the mesh plot.

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Now what is the use of mass.

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Of course this geometry is very simple.

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So this is not very useful in this case.

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Suppose you are working on a complicated geometry then you might need to plot to mesh so that you get

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an estimate of what kind of mission you have done.

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Now element colors you can select a wide range of options and quality measures.

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You can select different options and then plot and see how the color actually looks.

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Now if there is some problem if the growth rate is high if the at some point the mesh is not fine then

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you might have a different color change and then you can go to mass shootings and then improve upon

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your mesh.

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So this is one use of the mesh plot now.

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Oh I almost covered important plot groups in the through the plot.

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Now finally I told you that I will explain about the animation.

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Now if I click on animation I get something like this.

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Okay.

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Now in this simulation I have run this simulation for a zero second 10 second and understanding.

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I'll show you.

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So this is my study and this is my time dependent city and I ran for three different timestamps.

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Now when I click on so frame Okay I have to select these three when I click on so frame

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I think I have done some mistake

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uh disable this layer.

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Okay.

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I think now I am fine.

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Yeah yeah I'm fine.

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Okay.

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No.

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I have Randy animation.

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You see it's running nice complete.

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When I click on play.

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You see what happens now.

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Each frame will play for one second.

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When I click on play

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so this is the animation for two different frames.

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I show you what is happening here.

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If I go to this volume plot if I see a T equal to zero you see the temperature is very high throughout

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the cube at 10.

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Second it is getting distributed.

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The heat is getting distributed and it hundred second it's already distributed.

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So this is what we can see in the animation so the value jumps from equal to zero to.

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Two hundred.

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This is just an example.

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You can make more finer time scale and your animation will look stunning.

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You can see how the temperature gradient is flowing through.

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Thank you.

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So this is it.

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This is the last lecture of this series.

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I hope you will learn something from this video.

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These are the lecture series and if you do do it my course and I will wait for your feedback.

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If you have any suggestion you can please text me or message me in my ear to me.

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Uh account.

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Thank you for watching all the best.