Chemistry Foundations: Atomic Structure & Solutions
Learn atomic structure, chemical bonds, and solutions in this beginner-friendly chemistry course. Master key concepts for further study.
Learn atomic structure, chemical bonds, and solutions in this beginner-friendly chemistry course. Master key concepts for further study.
Dive into the fundamentals of chemistry with this comprehensive introductory course. Designed for students with limited chemistry background, it covers essential concepts such as atomic and molecular structure, solutions, phases of matter, and quantitative problem-solving. The course aims to build a strong foundation for further study in chemistry, emphasizing key principles and practical applications. Through a combination of lectures, demonstrations, and interactive exercises, students will develop a solid understanding of basic chemical concepts and gain confidence in their ability to tackle more advanced topics in the field.
4.7
(516 ratings)
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Instructors:
English
پښتو, বাংলা, اردو, 4 more
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What you'll learn
Understand atomic structure and electron configurations
Apply quantum numbers and the Bohr model to describe atomic behavior
Construct Lewis dot structures and predict molecular shapes using VSEPR theory
Explain bonding concepts including hybridization and resonance
Apply gas laws and understand kinetic molecular theory
Describe intermolecular forces and their effects on phases of matter
Skills you'll gain
This course includes:
7 Hours PreRecorded video
10 assignments
Access on Mobile, Tablet, Desktop
FullTime access
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There are 8 modules in this course
This comprehensive introductory chemistry course covers fundamental concepts essential for understanding atomic and molecular structures, chemical bonding, and solutions. Students will explore the electronic structure of atoms, quantum numbers, and electron configurations before delving into chemical bonding theories and molecular geometry. The course also covers phases of matter, gas laws, intermolecular forces, and solution chemistry. Through a combination of video lectures, demonstrations, and problem-solving exercises, learners will develop a strong foundation in basic chemistry principles, preparing them for more advanced study in the field.
Review Videos (I)
Module 1 · 1 Hours to complete
light
Module 2 · 1 Hours to complete
Quantum Number, Lewis Dot Structure
Module 3 · 2 Hours to complete
Formal Charge, VSEPR Theory, Hybridization
Module 4 · 2 Hours to complete
Phases of Matter, Gas Laws
Module 5 · 1 Hours to complete
Intermolecular Forces and Phase Changes
Module 6 · 2 Hours to complete
Solutions
Module 7 · 3 Hours to complete
Strengthen Your Understanding
Module 8 · 1 Hours to complete
Fee Structure
Payment options
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Instructor
Associate Professor of the Practice
Prof. Dorian Canelas has over a decade of experience teaching introductory and organic chemistry, incorporating online platforms for course management, homework, and testing. She is the author of more than 15 peer-reviewed research publications and has received prestigious awards, including the Presidential Green Chemistry Challenge Award in 1997. Her research interests span chemical education, the scholarship of teaching and learning, and the development of macromolecules for industrial and biological applications, such as microelectronics, drug delivery, imaging, blood compatibility, and biofilm inhibition. She earned a B.S. in chemistry from Northeastern University in 1993 and a Ph.D. in chemistry from the University of North Carolina at Chapel Hill. During her undergraduate studies, she worked with Dr. Larry F. Hancock in industry on step growth polymerizations for membrane modifications to improve blood compatibility for dialysis and artificial organs. Her graduate and postdoctoral research, under Prof. Joseph M. DeSimone at UNC, focused on environmentally friendly solvents, new surfactants, dispersion polymerization in supercritical carbon dioxide, and polymer particles for siRNA delivery. After completing her Ph.D., she spent five years at Lord Corporation in Cary, NC, working on thermosets for coatings and microelectronics before returning to academia at North Carolina State University in 2003. Since 2009, she has been at Duke University, where she focuses on advancing undergraduate science education pedagogies.
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4.7 course rating
516 ratings
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