WEBVTT 00:01.380 --> 00:02.230 Hello. 00:02.310 --> 00:09.850 This is the last lecture of this course and the most interesting one too in this uh. 00:09.930 --> 00:12.760 Show you the dazzles. 00:12.770 --> 00:20.460 Specifically I will show you through the blood group the type of results the type of analysis you can 00:20.460 --> 00:21.360 do. 00:21.360 --> 00:25.920 So let's jump into it at first and show you what kind of simulation I am doing here. 00:26.460 --> 00:32.980 So what I have is a cube one centimeter by one centimeter. 00:33.180 --> 00:36.680 And I have a source and a sink. 00:36.720 --> 00:47.670 So what it is like for example I have a cube or one centimeter cube and I have a source at one corner 00:50.600 --> 00:54.380 and I have a sink and another color. 00:54.650 --> 01:00.410 So what will happen is he will travel from source to sing from one corner to the other. 01:00.420 --> 01:00.850 Right. 01:01.830 --> 01:05.150 Okay we'll see if this is happening in our simulation or not. 01:05.870 --> 01:08.210 We have defined our material property. 01:08.230 --> 01:17.240 Now I have defined the sink as this port you see and dental living and source at two hundred Kelvin 01:17.960 --> 01:22.220 and the other port okay. 01:22.220 --> 01:24.140 So this is my setup. 01:24.540 --> 01:27.740 Now we'll go to the result. 01:27.930 --> 01:31.570 Now I have done no volume to the plot. 01:31.850 --> 01:37.990 Now in the volume plot what it does is it will plot the volume. 01:38.120 --> 01:43.090 That is the total data of the whole of the truly volume. 01:43.130 --> 01:45.620 What you have done in your model. 01:45.920 --> 01:50.220 You see I have 50 Kelvin in this boat. 01:50.300 --> 01:52.940 And then she hundred Kelvin at this point. 01:53.240 --> 01:56.800 And this result is measured at a hundred seconds. 01:56.810 --> 02:00.330 Now if I select a zero second I click on plot. 02:00.530 --> 02:06.440 You see most of the block is around t and um Kelvin. 02:06.860 --> 02:09.660 So it is not in equilibrium. 02:09.700 --> 02:19.300 Now if I go to next after 10 seconds it C S A calibrating after 100 seconds it's almost like any form. 02:19.430 --> 02:19.860 Okay. 02:19.970 --> 02:24.230 So this is how the volume plot looks like. 02:24.350 --> 02:28.450 Next comes the arrow volume. 02:28.640 --> 02:32.940 Suppose uh you have done with your volume plot. 02:33.110 --> 02:42.290 That is what you have seen how the results is looking but you want to know from which angle the heat 02:42.290 --> 02:43.320 is flowing. 02:43.490 --> 02:44.810 That is also important right. 02:45.530 --> 02:47.500 So how would you do that. 02:48.910 --> 02:53.990 You can do that using arrow volume right now. 02:54.250 --> 03:00.080 It plots the x y and z component of the heat flux. 03:00.310 --> 03:11.560 So you see I have a source here I have a source here and I think therefore the heat flux will flow from 03:11.560 --> 03:13.010 this region to this region. 03:13.030 --> 03:15.240 Right. 03:15.580 --> 03:18.190 This is what we are getting here. 03:18.620 --> 03:23.790 You see all the arrows are pointing from source to sink. 03:24.100 --> 03:26.470 So this is the arrow part 03:29.460 --> 03:37.800 now will move to the surface plot a self explored looks very similar to volume plot but this is different. 03:37.800 --> 03:41.440 This just brought the value at the surface. 03:41.460 --> 03:47.900 It's like a hollow spear a solid spear and a hollow spear looks the same from outside right. 03:47.970 --> 03:50.000 Unless we cut from the middle. 03:50.040 --> 03:51.720 So this is the surface plot 03:54.610 --> 03:55.380 next. 03:55.420 --> 04:05.600 We have slice when you use the slice plot in the truly group it will make slice in your model and plot 04:05.630 --> 04:06.260 as well. 04:06.310 --> 04:09.480 So I have made to slice in the is it plain. 04:09.610 --> 04:12.010 You can change the plain 04:14.800 --> 04:15.860 distance also. 04:15.970 --> 04:19.050 So that is not a big deal at all. 04:19.060 --> 04:25.400 Also instead of quick you can do general and put your coordinate so it is totally flexible. 04:25.600 --> 04:25.940 No. 04:25.940 --> 04:32.850 Now if you make a two day plot like this you see the temperature profile can be easily seen because 04:32.880 --> 04:40.600 the red is the higher temperature because you have a sink and blue is here because um the temperature 04:40.600 --> 04:41.710 is low. 04:42.340 --> 04:45.040 So that is the slice plot. 04:45.040 --> 04:47.990 I think the left is getting quite Landy. 04:48.100 --> 04:56.020 I will break this lecture so in my next lecture I'll follow up on the other plot group and will try 04:56.020 --> 04:56.590 to finish it. 04:57.400 --> 04:58.350 Thank you for watching. 04:58.360 --> 05:00.810 I'll see you in my next lecture.