It is because it is we are going to study the natural frequency of a component. So, since it is an actual frequency study, we are not going to apply any loads on the model. So, let's do the study. So to do the natural frequency to identify the natural frequency phenomenon of any component. So there is an analysis system that is a model analysis. So, let's take the modal analysis.

So the material is okay. So, directly open the geometry. So, here also we'll use the same model what we have used in the previous case study. So, we'll take the piston, articulate Crowd just go to find import all external geometry file articulator drawed yes generated. So, once we have done with it just go to the model. So here we are not going to apply any loads.

So, here only the gravity effect only we are going to see the gravity effect. So, here we'll just go with the basic machine gender dimension So, just you is still relevant. That is enough. Yeah, we can make it fine. Right. So still if you want to make it you can go to the sizing there, we can change it.

Okay, let's change it. Use proximity and curvature and Sullivan center, make it fine So here in each and every analysis case the interface will be k will be the same. So there will be no change in any interface and the input giving method also say everything We'll be seeing only the changes the input methods and constraints. That is only the change. So even in the future we're going to do the thermal analysis. So even in the thermal analysis the case will be seen.

There will be no change in the interface, only two inputs are going to be changed.