The role of multiple representations in exploring and addressing student conceptions related to dispersion force theory, which is an integral concept in undergraduate chemistry education, have been investigated. Stimulus-response think-aloud interviews were completed with nine first-year (FY) and two second-year university students to assess their range of thinking around this topic. Specifically, interviewees were asked to provide descriptions of dispersion forces, their mental models of the atom, and explain the basis of interactions between two butane molecules. In parallel, students were shown various representations and asked to provide their understanding of what they depicted. Also, an animation, created by the researcher, was pilote...
One of the challenges of teaching an introductory chemistry course is to balance the requirement of ...
This article reviews experimental and naturalistic studies conducted by our research group to examin...
Mental models for scientific learning are often defined as, "cognitive tools situated between experi...
BACKGROUND As part of instructional design for hybrid learning environments, teachers have opportun...
The ability to use representations of molecular structure to predict the macroscopic properties of a...
A number of studies have reported that the main cause of misconceptions are the abstract concepts an...
Much like a practiced linguist, expert chemists utilize the power and elegance of chemical symbols t...
The American Association for the Advancement of Science (AAAS) has outlined four themes that define ...
Since visual representations play a particularly important role in the teaching and learning of chem...
Various technologies have been used to assist students in understanding molecular interactions and s...
BACKGROUND Chemistry instructors adopt a range of representations that can be shared with students u...
A new chemistry curriculum for secondary schools is currently under construction in the Netherlands,...
BACKGROUND Particles studied in chemistry are not directly observable, and thus can only be expresse...
In one way or another, knowledge and understanding of chemistry is generated, expressed, taught, and...
Chemists have to rely on models to aid in the explanation of phenomena they experience. Instruction ...
One of the challenges of teaching an introductory chemistry course is to balance the requirement of ...
This article reviews experimental and naturalistic studies conducted by our research group to examin...
Mental models for scientific learning are often defined as, "cognitive tools situated between experi...
BACKGROUND As part of instructional design for hybrid learning environments, teachers have opportun...
The ability to use representations of molecular structure to predict the macroscopic properties of a...
A number of studies have reported that the main cause of misconceptions are the abstract concepts an...
Much like a practiced linguist, expert chemists utilize the power and elegance of chemical symbols t...
The American Association for the Advancement of Science (AAAS) has outlined four themes that define ...
Since visual representations play a particularly important role in the teaching and learning of chem...
Various technologies have been used to assist students in understanding molecular interactions and s...
BACKGROUND Chemistry instructors adopt a range of representations that can be shared with students u...
A new chemistry curriculum for secondary schools is currently under construction in the Netherlands,...
BACKGROUND Particles studied in chemistry are not directly observable, and thus can only be expresse...
In one way or another, knowledge and understanding of chemistry is generated, expressed, taught, and...
Chemists have to rely on models to aid in the explanation of phenomena they experience. Instruction ...
One of the challenges of teaching an introductory chemistry course is to balance the requirement of ...
This article reviews experimental and naturalistic studies conducted by our research group to examin...
Mental models for scientific learning are often defined as, "cognitive tools situated between experi...