We know that many misconceptions in science stem from an inability to relate its abstractions – mathematical relationships, concepts, and symbolism – to accurate, meaningful, mental models of invisible phenomena. We also know that you cannot create or change a student’s model simply by showing them a scientifically acceptable one, particularly if it conflicts with their own. In this presentation we will critically analyse the strengths and weaknesses of a number of visualisations from a range of scientific disciplines. Then we will use an evidence-based cognitive model for how we learn from audiovisual information, to inform best practice in using visualisation for teaching science. This will be illustrated with an example from our own res...
Mental models for scientific learning are often defined as, "cognitive tools situated between experi...
Understanding chemistry involves being able to link what one sees substances doing in the laboratory...
It is a long-held pervasive belief that for a student to gain expertise in chemistry, they must be a...
Scientific visualisations such as computer-based animations and simulations are increasingly a featu...
The use of visual representations (i.e., photographs, diagrams, models) has been part of science, an...
Visual thinking is essential in the development of science. Visual representations are also indispen...
My early experience with students, confirmed by the chemical education literature, indicated student...
The use of computer-based tools in education is booming, and governments are pouring large amounts o...
Most chemistry teaching operates at the macro (or laboratory) level and the symbolic level, but we k...
Abstract. The range of terminology used in the field of ‘visualization ’ is reviewed and, in the lig...
Scientific visualisations such as computer-based animations and simulations are increasingly a featu...
The goal of chemistry education research is to improve student understanding by investigating the th...
Research in chemical education over the last 20 years has revealed that many students have unaccepta...
Computer animations or dynamic models may support students' visualization of dynamic processes or ab...
Many topics in science are notoriously difficult for students to learn. Mechanisms and processes tha...
Mental models for scientific learning are often defined as, "cognitive tools situated between experi...
Understanding chemistry involves being able to link what one sees substances doing in the laboratory...
It is a long-held pervasive belief that for a student to gain expertise in chemistry, they must be a...
Scientific visualisations such as computer-based animations and simulations are increasingly a featu...
The use of visual representations (i.e., photographs, diagrams, models) has been part of science, an...
Visual thinking is essential in the development of science. Visual representations are also indispen...
My early experience with students, confirmed by the chemical education literature, indicated student...
The use of computer-based tools in education is booming, and governments are pouring large amounts o...
Most chemistry teaching operates at the macro (or laboratory) level and the symbolic level, but we k...
Abstract. The range of terminology used in the field of ‘visualization ’ is reviewed and, in the lig...
Scientific visualisations such as computer-based animations and simulations are increasingly a featu...
The goal of chemistry education research is to improve student understanding by investigating the th...
Research in chemical education over the last 20 years has revealed that many students have unaccepta...
Computer animations or dynamic models may support students' visualization of dynamic processes or ab...
Many topics in science are notoriously difficult for students to learn. Mechanisms and processes tha...
Mental models for scientific learning are often defined as, "cognitive tools situated between experi...
Understanding chemistry involves being able to link what one sees substances doing in the laboratory...
It is a long-held pervasive belief that for a student to gain expertise in chemistry, they must be a...