Hey thanks for the help! One question....what is the constant 'Q' representing at the end of the formulation? It's referring to a value of heat transfer....but where? Cheers.
@@erikoui One more question! Do you have any resources on spatial AND time-dependent FEA? Preferably from you as I enjoy your teaching style. I have found other resources online, so no worries if you have nothing on the topic!
@@BurningRoman Unfortunately I do not have anything on the topic. With time-dependent differential equations, while you could technically aporoximate a solution by treating time as a dimension, it is the norm to use a time-stepping method in conjunction with FEA. I may make a video on this at a later stage.
yeah, science! :D
Hey thanks for the help! One question....what is the constant 'Q' representing at the end of the formulation? It's referring to a value of heat transfer....but where? Cheers.
Hi! Glad to help. It represents the heat transfer to and from the environment.
@@erikoui Excellent, thanks.
@@erikoui One more question! Do you have any resources on spatial AND time-dependent FEA? Preferably from you as I enjoy your teaching style. I have found other resources online, so no worries if you have nothing on the topic!
@@BurningRoman Unfortunately I do not have anything on the topic. With time-dependent differential equations, while you could technically aporoximate a solution by treating time as a dimension, it is the norm to use a time-stepping method in conjunction with FEA. I may make a video on this at a later stage.
@@erikoui Ahh okay, understood. I will be on the lookout for a future video. Thanks.