Prof. Busza should have given the coordinates or direction cosines of P2. In a right hand coordinate system the z-axis in the blackboard diagram is the negative z-axis: If you stand on the y-axis looking toward the origin in a right hand coordinate system (this is the viewers’ viewpoint) and rotate the x-z plane counterclockwise (or anticlockwise) 90 degrees then the positive x-axis is pointing up and the positive z-axis is pointing to the left. Prof. Busza’s diagram is needlessly confusing.
can anyone here recomend a good electrodynamics- cours that's available here? I already watched this and similar courses for mechaniks and visited the most important math lectures (linear algebra / analysis/ ..ordinary differential equation ...) and "introduction in elektrostatic magnetostatic and optik" in my home university in austria now i' m lookin for a electrodynamics cours that's a little bit more detailed andlittle more into vector tensor or differential equations and less into phenomenology. thank you verry much sorry for bad spelling
Wow what a brilliant teacher i downloaded this lecture so that i can watch it offline or some other time
have you watched it yet?
i love you too
Prof. Busza should have given the coordinates or direction cosines of P2. In a right hand coordinate system the z-axis in the blackboard diagram is the negative z-axis: If you stand on the y-axis looking toward the origin in a right hand coordinate system (this is the viewers’ viewpoint) and rotate the x-z plane counterclockwise (or anticlockwise) 90 degrees then the positive x-axis is pointing up and the positive z-axis is pointing to the left. Prof. Busza’s diagram is needlessly confusing.
i love you
Is there a possible way that electromagnetic waves can send voltage to a receiver of electricity with out connection
can anyone here recomend a good electrodynamics- cours that's available here?
I already watched this and similar courses for mechaniks and visited the most important math lectures (linear algebra / analysis/ ..ordinary differential equation ...) and "introduction in elektrostatic magnetostatic and optik" in my home university in austria
now i' m lookin for a electrodynamics cours that's a little bit more detailed andlittle more into vector tensor or differential equations and less into phenomenology.
thank you verry much
sorry for bad spelling
I want to make a device that propagate a high level of electromagnetic wave
waht does thi mena