The visualization of chemical compounds in three-dimensions is a foundational skill in the study and practice of chemistry and related fields, and one which has the potential to be supported by interaction with virtual models. Here, we present a collaborative learning activity piloted in first-year chemistry which investigates if inquiry-driven interactive technology can contribute meaningfully to student conversations around this topic, and how students’ conversations and practices may shift when driven by feedback from an interactive simulation. Our initial observations from this pilot project suggest that students engaged in collaborative sense-making and discussion around key ideas throughout this activity. Students’ post-activity refle...
This case study is an attempt to investigate how computer simulations can contribute to engaging stu...
As the number of STEM opportunities and the need for a scientifically literate society increases, ed...
Chemistry education, although difficult, can be improved through the use of modeling and visualizati...
After the two first decades of the 21st century, digital tools and techniques are, in several countr...
Visualization tools and high performance computing have changed the nature of chemistry research and...
Scientific visualisations such as computer-based animations and simulations are increasingly a featu...
Various technologies have been used to assist students in understanding molecular interactions and s...
A deep understanding of chemistry requires internal visualization of structures and processes at the...
My early experience with students, confirmed by the chemical education literature, indicated student...
The goal of chemistry education research is to improve student understanding by investigating the th...
Chemistry requires and combines both observable and mental representations. Still we know that learn...
Molecular Dynamic (MD) simulations have the potential to become increasingly integrated into high sc...
The ability to visualize chemistry and to move between two-dimensional (2D) representations presente...
Students studying Pharmacy often lack motivation to engage with chemical principles. In particular, ...
One of the challenges of teaching an introductory chemistry course is to balance the requirement of ...
This case study is an attempt to investigate how computer simulations can contribute to engaging stu...
As the number of STEM opportunities and the need for a scientifically literate society increases, ed...
Chemistry education, although difficult, can be improved through the use of modeling and visualizati...
After the two first decades of the 21st century, digital tools and techniques are, in several countr...
Visualization tools and high performance computing have changed the nature of chemistry research and...
Scientific visualisations such as computer-based animations and simulations are increasingly a featu...
Various technologies have been used to assist students in understanding molecular interactions and s...
A deep understanding of chemistry requires internal visualization of structures and processes at the...
My early experience with students, confirmed by the chemical education literature, indicated student...
The goal of chemistry education research is to improve student understanding by investigating the th...
Chemistry requires and combines both observable and mental representations. Still we know that learn...
Molecular Dynamic (MD) simulations have the potential to become increasingly integrated into high sc...
The ability to visualize chemistry and to move between two-dimensional (2D) representations presente...
Students studying Pharmacy often lack motivation to engage with chemical principles. In particular, ...
One of the challenges of teaching an introductory chemistry course is to balance the requirement of ...
This case study is an attempt to investigate how computer simulations can contribute to engaging stu...
As the number of STEM opportunities and the need for a scientifically literate society increases, ed...
Chemistry education, although difficult, can be improved through the use of modeling and visualizati...