Sir, i have never found a better youtube channel! You are so incredibly calming to listen to! And you explain things so consicely and clearly, and EASILY! Thank you Thank you. Cannot wait to watch more of your lectures!
For the plastic and pseudoplastic graphs, I see that the gradient of the graph begins to become constant even though more shear stress is applied. Is there a point where the viscosity will eventually become constant for these types of liquids? And if so, does this also apply to dilatant substances?
Sir, i have never found a better youtube channel! You are so incredibly calming to listen to! And you explain things so consicely and clearly, and EASILY! Thank you Thank you. Cannot wait to watch more of your lectures!
Thank you very much for your kind words and I'm glad you're finding the videos useful!
For the plastic and pseudoplastic graphs, I see that the gradient of the graph begins to become constant even though more shear stress is applied. Is there a point where the viscosity will eventually become constant for these types of liquids? And if so, does this also apply to dilatant substances?
I don't know how to properly thank you sir but you just saved my exam- thank you so much for sharing your lecture🥲
Thank you for your kind words and best of luck in your exam