Manjula D. Sharma

Saying the wrong thing: improving learning with multimedia by including misconceptions

In this study, 364 first-year physics students were randomly assigned to one of four online multimedia treatments on Newtons First and Second Laws of Motion: (1) the ‘Exposition’, a concise lecture-style presentation; (2) the ‘Extended Exposition’, the Exposition with additional interesting information; (3) the ‘Refutation’, the Exposition with common misconceptions explicitly stated and refuted; or (4) the ‘Dialogue’, a student–tutor discussion of the same material as in the Refutation. Students were tested using questions from mechanics conceptual inventories before and after watching the multimedia treatments. Results show the Refutation and Dialogue produced the greatest learning gains, with effect sizes of 0.79 and 0.83, respectively, compared with the Exposition. Students with low prior knowledge benefited most, however high prior knowledge learners were not disadvantaged by the misconception-based approach. The findings suggest that online multimedia can be greatly improved, promoting conceptual change in students with all levels of experience, by including a discussion of misconceptions.

Image formation in low-coherence and confocal interference microscopes.

Image formation in the coherence probe microscope (CPM) and in optical coherence tomography (OCT) are compared. These systems differ in that CPM is a conventional interference microscope, but OCT is a confocal interference microscope. A major disadvantage of CPM for imaging through thick object structures is that there is no optical sectioning for the background image, which can saturate the detector. The behavior of the interference term in the presence of aberrations also exhibits some differences: Aberrations can be compensated in CPM, but not in OCT.

Development and Use of a Conceptual Survey in Introductory Quantum Physics

Conceptual surveys have become increasingly popular at many levels to probe various aspects of science education research such as measuring student understanding of basic concepts and assessing the effectiveness of pedagogical material. The aim of this study was to construct a valid and reliable multiple‐choice conceptual survey to investigate students’ understanding of introductory quantum physics concepts. We examined course syllabi to establish content coverage, consulted with experts to extract fundamental content areas, and trialled open‐ended questions to determine how the selected content areas align with students’ difficulties. The questions were generated and trialled with different groups of students. Each version of the survey was critiqued by a group of discipline and teaching experts to establish its validity. The survey was administered to 312 students at the University of Sydney. Using the data from this sample, we performed five statistical tests (item difficulty index, item discrimination index, item point biserial coefficient, KR‐21 reliability test, and Ferguson’s delta) to evaluate the test’s reliability and discriminatory power. The result indicates that our survey is a reliable test. This study also provided data from which preliminary findings were drawn on students’ understandings of introductory quantum physics concepts. The main point is that questions which require an understanding of the standard interpretations of quantum physics are more challenging for students than those grouped as non‐interpretative. The division of conceptual questions into interpretive and non‐interpretive needs further exploration.

The Relationship Between Attendance in Student‐centred Physics Tutorials and Performance in University Examinations

The School of Physics at the University of Sydney has introduced voluntary workshop tutorials in large first‐year courses. The tutorials are based on informal cooperative groupings with structured worksheets and short hands‐on activities. In this study we explore the relationship between attendance at the workshop tutorials and student performance in examinations. We show that about 80% of the students attend more than two‐thirds of the voluntary tutorials. Discounting the students who attend very few tutorials, on average, examination marks improve significantly with increased tutorial attendance. In particular, on average, students with poor senior high school scores have significantly better examination marks if they work in the same group for eight or more tutorials than those who do not work in the same groups. There is evidence that the improvement in examination performance is more pronounced in qualitative concept questions, most dramatically again for students who did poorly in senior high school.

A case study of the transfer of mathematics skills by university students

This paper describes the development of a procedure for investigating the ability of university students to employ their mathematical skills in a range of scientific contexts. This ability is called transfer. An instrument (consisting of a set of questions) to test transfer was designed jointly by three scientists and a mathematician and attempted by 47 students studying first-year science subjects at the University of Sydney. The instrument is described, and some of its strengths and weaknesses are discussed. The performances of the students on the instrument are analysed and interpreted, and a method by which each students overall transfer ability may be quantified is suggested. Methods for determining a students ability to transfer specific skills or items of mathematical knowledge are also described.

The study, evaluation, and improvement of university student self-efficacy

In this review of 64 articles published since the year 2000, a strong association between self-efficacy and student learning outcomes was apparent. Self-efficacy is also related to other factors such as value, self-regulation and metacognition, locus of control, intrinsic motivation, and strategy learning use. The review revealed that university student self-efficacy is higher under certain conditions than others, and that it can be improved. Examples of teaching strategies that may be used to improve self-efficacy are outlined. In screening articles for inclusion in the review, several conflicting definitions of self-efficacy arose. Clarification on the meaning and scope of the self-efficacy term is provided. The interpretation of the results of some studies reviewed was limited by design or analysis issues. Suggestions for addressing these issues in future research and evaluation work is given.

A Methodological Framework for Understanding and Describing Discipline-Based Scholarship of Teaching in Higher Education through Design-Based Research.

Since their inception in 1993 at an Australian university, the workshop tutorials in physics have evolved and grown beyond the initiating department. In this paper, we adopt an interpretive perspective to: (i) reflect on why the tutorials continue to be successful; (ii) use models from literature to understand that success; and (iii) abstract key features that can inform scholarly inquiry into teaching and learning in higher education in other contexts and discipline areas. Practitioner (action) research and design‐based research not only provide useful methodological frameworks that support the success of the workshop tutorials, but they also offer a worthwhile methodological strategy for fostering scholarly inquiry into university teaching and student learning.

Does using active learning in thermodynamics lectures improve students? conceptual understanding and learning experiences?

Encouraging ?active learning? in the large lecture theatre emerges as a credible recommendation for improving university courses, with reports often showing significant improvements in learning outcomes. However, the recommendations are based predominantly on studies undertaken in mechanics. We set out to examine those claims in the thermodynamics module of a large first year physics course with an established technique, called interactive lecture demonstrations (ILDs). The study took place at The University of Sydney, where four parallel streams of the thermodynamics module were divided into two streams that experienced the ILDs and two streams that did not. The programme was first implemented in 2011 to gain experience and refine logistical matters and repeated in 2012 with approximately 500 students. A validated survey, the thermal concepts survey, was used as pre-test and post-test to measure learning gains while surveys and interviews provided insights into what the ?active learning? meant from student experiences. We analysed lecture recordings to capture the time devoted to different activities in a lecture, including interactivity. The learning gains were in the ?high gain? range for the ILD streams and ?medium gain? for the other streams. The analysis of the lecture recordings showed that the ILD streams devoted significantly more time to interactivity while surveys and interviews showed that students in the ILD streams were thinking in deep ways. Our study shows that ILDs can make a difference in students? conceptual understanding as well as their experiences, demonstrating the potential value-add that can be provided by investing in active learning to enhance lectures.

Numerical integration of diffraction integrals for a circular aperture

Summary It is possible to obtain an accurate irradiance distribution for the diffracted wave field from an aperture by the numerical evaluation of the two-dimensional diffraction integrals using a product-integration method in which Simpsons 1/3 rule is applied twice. The calculations can be done quickly using a standard PC by utilizing matrix operations on complex numbers with Matlab. The diffracted wave field can be calculated from the plane of the aperture to the far field without introducing many of the standard approximations that are used to give Fresnel or Fraunhofer diffraction. The numerical method is used to compare the diffracted irradiance distribution from a circular aperture as predicted by Kirchhoff, Rayleigh-Sommerfeld 1 and Rayleigh-Sommerfeld 2 diffraction integrals.

What does a physics undergraduate education give you? A perspective from Australian physics

In a study to assess how effectively undergraduate physics studies have prepared students for the workplace, we attempted to locate and interview traditional 3-year or 4-year physics students who had graduated in the past five years (2000 to 2004), and the employers of these graduates. The study was limited to recent graduates who have majored in physics and not obtained further or concurrent degrees. Overseas studies of the destinations of physics graduates referred to in this paper have not isolated the group we interviewed as a distinct group. A major finding was that the number of these graduates was unexpectedly low. Indeed, most physics graduates have two degrees. Interviews with graduates and employers suggest that physics graduates have particular strengths in problem solving and are good at applying their skills at the workplace.