Thanks Taylor these videos are really helpful , specially when u go through previous parts and explain them as well. Thank you so much for posting these video’s
Small correction on Millikan's oil drop experiment: the oil droplets were IONIZED by an X-ray, that's why they were affected by the electric field. Without that, the charge of the electrons and protons in the droplets would have cancelled each other and the neutral droplets would have fallen independent of the electric field strength.
@@TaylorSparks umm... I presume the oil atoms (carbon, hydrogen, etc.) captured an extra electron or two? I'm not entirely sure other than that they got charged?
Thanks Taylor these videos are really helpful , specially when u go through previous parts and explain them as well. Thank you so much for posting these video’s
Small correction on Millikan's oil drop experiment: the oil droplets were IONIZED by an X-ray, that's why they were affected by the electric field. Without that, the charge of the electrons and protons in the droplets would have cancelled each other and the neutral droplets would have fallen independent of the electric field strength.
That makes sense. What exactly what's happening when they ionized it?
@@TaylorSparks umm... I presume the oil atoms (carbon, hydrogen, etc.) captured an extra electron or two? I'm not entirely sure other than that they got charged?
Thanks alot for these lectures
Hello Mr Taylor, I’m studying material science do I really need to know chemistry 😫😫
@@bernicenwabueze924 yup!! You'll love it when you see engineering applications that use it though.
I hope all is well,
Is there any way we could access these slides thanks in advance?
Is the materials science course for graduates of the faculty of Science different from graduates of Engineering?
Not here at the University of Utah. We teach the same course for both
SCIENCE IS SO FUN MAN
But my brain loves to work against me.