Chemical reactions underpin the production of pretty much everything in our modern world. But, what is the driving force behind reactions? Why do some reactions occur over geological time scales whilst others are so fast that we need femtosecond-pulsed lasers to study them? Ultimately, what is going on at the atomic level? Discover the answers to such fundamental questions and more on this course in introductory physical chemistry.
Tracing its roots back to 1824, the University of Manchester is home to almost 40,000 students. The University has three Nobel laureates among its current staff – more than any other British university - and a total of 25 Nobel laureates have come from our past and present students and staff. We have three main goals: to undertake world-class research; to deliver an outstanding learning and student experience; and to be socially responsible.
- 5 stars
- 4 stars
- 3 stars
- 2 stars
- 1 star
Thank you so much for giving and including this syllabus which is is very helpfull for my accademic.The lectures given was so clear, and understandabe and also the virtual labs were very fine.
I like this course very much as it talks clearly about the basic concept in this course. (Prerequisite: I have learned this course before, I just try to review all the info in this class.)
The information in this course is very useful. Help me to understand one of the part of physical chemistry. And the lectures are very clearly So thank Professors for the course!!
This was an unbelievabable lecture.i have learn first time the schrodinger wave equation.fantastic lecture i have ever seen.many many thanks to my dear prof.