WEBVTT 00:00.810 --> 00:02.350 Hello, welcome back. 00:02.610 --> 00:10.380 So here in this tutorial, we learn about the evaluation group and we will learn how we can calculate 00:10.380 --> 00:14.890 and plot different values of frequency and their values. 00:15.330 --> 00:18.800 So let's jump in to the evaluation group. 00:19.140 --> 00:21.530 And here I have a global evaluation. 00:22.620 --> 00:25.740 Now, the setting, you can just add it to all. 00:25.760 --> 00:30.420 No problem in the global evaluation in the dataset. 00:30.900 --> 00:39.690 Click on Parametric Solution because we're interested in the frequency study and in the parameter selection. 00:39.690 --> 00:43.410 Our frequency clicked on from list and select. 00:43.410 --> 00:52.050 All of them mean the time selection click on and in the table column type the frequency. 00:53.490 --> 01:01.920 Now what I want to do is I want to calculate the average of the potential, but I want to calculate 01:01.920 --> 01:08.370 the absolute value, the average of the absolute value of the potential across the inductor. 01:09.600 --> 01:11.450 Now, let me just clear this. 01:12.180 --> 01:19.770 When I click on Evaluate, I have the list of frequency and the potential drop. 01:21.350 --> 01:29.180 Now, there are many ways where you can plotted firstly, you can just copy the data in, let's say, 01:29.180 --> 01:37.560 Excel or somewhere and plot it, or you can just plot it in console itself to plot this data income. 01:37.610 --> 01:39.040 So it is quite easy. 01:39.290 --> 01:47.150 What you need to do is just go to Razzles, click on one deployed group instead of one deployed group. 01:47.150 --> 01:47.450 Right. 01:47.450 --> 01:50.870 Click click on DeBlois Graph. 01:52.420 --> 02:00.370 In the table graph, click on Source, click on the evaluation group, because we know we are working 02:00.370 --> 02:07.890 on the evolution in group data and select values in Group one, because this is the evaluation group 02:07.900 --> 02:08.290 one. 02:10.370 --> 02:19.970 And X-axis be automatic on X-axis, you don't need to actually change the settings, you can just click 02:19.970 --> 02:28.010 on blood and you see that the blood between frequency and the average absolute value of the potential 02:28.010 --> 02:29.870 across the inductor is being plotted. 02:30.560 --> 02:31.070 From this. 02:31.070 --> 02:36.590 We can see that as the frequency increases, the potential also increases. 02:37.040 --> 02:44.450 Know that, oh, since our study was not optimized, you know, we must run it for higher time. 02:44.750 --> 02:49.040 And also we should not check the value close to the initial value. 02:49.400 --> 02:56.450 If you consider all these factors, then you will almost always get the exact nature of the theoretical 02:56.450 --> 02:56.810 result. 02:57.740 --> 03:05.630 So this is how you plot different results from the evaluation group that would be frequency time, voltage 03:05.630 --> 03:07.670 current or whatever you are calculating. 03:07.820 --> 03:08.420 That's it. 03:08.810 --> 03:09.980 Thank you for watching. 03:10.220 --> 03:15.380 And I hope that you are enjoying this course and you have learned something new. 03:15.770 --> 03:22.310 If you gain some knowledge from this course, please do read and keep supporting. 03:22.880 --> 03:24.890 Thanks for watching and take care.