Using Video Games to Support Pre-Service Elementary Teachers Learning of Basic Physics Principles

The purpose of this work is to share our findings in using video gaming technology to facilitate the understanding of basic electromagnetism with pre-service elementary teachers. To this end we explored the impact of using a game called Supercharged! on pre-service teachers’ understanding of electromagnetic concepts compared to students who conducted a more traditional inquiry oriented investigation of the same concepts. This study was a part of a larger design experiment examining the pedagogical potential of Supercharged! the control group learned through a series of guided inquiry methods while the experimental group played Supercharged! during the laboratory sections of the science course. There was significant difference F(2,134) = 4.8, p < 0.05, η² = 0.59 between the control and experimental groups on the gains from pre-to-post assessment with an effect size of d = 0.72. However, while students in the experimental group performed better than their control group peers, they rated their knowledge of the topic lower than the control group (M _post-control = 3.0, M _{post-experiment} = 2.7), leading to further examination of their laboratory journals. Results of this study show that video games can lead to positive learning outcomes, as demonstrated by the increase in test scores from pre- to post-assessment. Additionally, this study also suggests that a complementary approach, in which video games and hands-on activities are integrated, with each activity informing the other, could be a very powerful technique for supporting student scientific understanding. Further, our findings suggest that video game designers should embed meta-cognitive activities such as reflective opportunities into educational video games to provide scaffolds for students and to reinforce that they are engaged in an educational learning experience.     

Examination of the Effects of Dimensionality on Cognitive Processing in Science: A Computational Modeling Experiment Comparing Online Laboratory Simulations and Serious Educational Games

Within the last 10 years, new tools for assisting in the teaching and learning of academic skills and content within the context of science have arisen. These new tools include multiple types of computer software and hardware to include (video) games. The purpose of this study was to examine and compare the effect of computer learning games in the form of three-dimensional serious educational games, two-dimensional online laboratories, and traditional lecture-based instruction in the context of student content learning in science. In particular, this study examines the impact of dimensionality, or the ability to move along the X-, Y-, and Z-axis in the games. Study subjects (N = 551) were randomly selected using a stratified sampling technique. Independent strata subsamples were developed based upon the conditions of serious educational games, online laboratories, and lecture. The study also computationally models a potential mechanism of action and compares two- and three-dimensional learning environments. F test results suggest a significant difference for the main effect of condition across the factor of content gain score with large effect. Overall, comparisons using computational models suggest that three-dimensional serious educational games increase the level of success in learning as measured with content examinations through greater recruitment and attributional retraining of cognitive systems. The study supports assertions in the literature that the use of games in higher dimensions (i.e., three-dimensional versus two-dimensional) helps to increase student understanding of science concepts.     

Students Designing Video Games about Immunology: Insights for Science Learning

Exposing American K–12 students to science, technology, engineering, and math (STEM) content is a national initiative. Game Design Through Mentoring and Collaboration targets students from underserved communities and uses their interest in video games as a way to introduce science, technology, engineering, and math topics. This article describes a Game Design Through Mentoring and Collaboration summer program for 16 high school students and 3 college student mentors who collaborated with a science subject matter expert. After four weeks, most students produced 2-D video games with themes based on immunology concepts from the educational science game Immune Attack. Findings from three groups that finished their games and one group with an uncompleted game are explored.     

Learning about the game: designing science games for a generation of gamers

This paper is a response to ??Challenges and Opportunities: Using a science-based video game in secondary school settings?? by Rachel Muehrer, Jennifer Jenson, Jeremy Friedberg, and Nicole Husain. The article highlights two critical areas that I argue require more research in the studies of video games in education. The first area focuses on the need to better understand how children interact with non-educational games, outside of the school setting. This includes issues such as ??gamer culture?? and game play styles. The better we understand these issues, the better educational game designers and implementers can imagine the kinds of behaviors that might be elicited from students when we bring educational games into their classroom. In this focus, the student is the unit of analysis, but it is the student in and out of the classroom: the way the student understands video games when she is at home, playing with friends, and at school. The second area focuses on the study of the classroom as a unit of analysis. As the authors of this study reveal, classroom cultures affect the reception and success of an educational game. This is to ask, how does a game play when students have to play it in pairs or groups for a lack of resources? What is the role of the teacher in the success of video game implementation? How does a game react to multiple server requests in a short period of time? These are issues that are still largely unexplored in the educational game design literature.     

Passion play: Will Wright and games for science learning

Researchers and instructional designers are exploring the possibilities of using video games to support STEM education in the U.S., not only because they are a popular media form among youth, but also because well-designed games often leverage the best features of inquiry learning. Those interested in using games in an educational capacity may benefit from an examination of the work of video game designer Will Wright. Wright designs through a constructivist lens and his open-ended, sandbox games (SimCity, The Sims, Spore) present wide ??possibility spaces?? that allow players to exercise their critical thinking and problem solving skills. His games invoke a delight in discovery that inspire creative acts and interest-driven learning both during and outside of the game. Finally, he reminds us that failure-based learning is a viable strategy for building expertise and understanding.     

The rules of the game

This response to Rachel Muehrer, Jennifer Jenson, Jeremy Friedberg and Nicole Husain??s paper, Challenges and opportunities: Using a science-based video game in secondary school settings, explores the issues encountered while a science-based video game is introduced in secondary school settings. It highlights the importance of the context, the availability of technologies, the skilfulness of the teachers and readiness of the students for a more successful use of games in schools. In addition, the definition of student engagement is also further discussed.     

Serious game‐based and nongame‐based online courses: Learning experiences and outcomes

When combining the increasing use of online educational environments, the push to use serious video games and the lack of research on the effectiveness of online learning environments and video games, there is a clear need for further investigation into the use of serious video games in an online format. A mix methods model was used to triangulate statistical and qualitative findings on student performance, completion time, student intrinsic motivation, as well as desirable, undesirable, helpful and hindering aspects of serious game‐based and nongame‐based courses. Students in the game‐based course were found to have performed significantly better and to have taken significantly longer. Students and teachers in the game‐based course provided more reasons for student motivation along with more desirable, more helpful and less hindering aspects compared to students and teachers in the non‐game‐based course. In addition, students and teachers in both courses provided an equal number of undesirable aspects. The results from this study inform instructional designers, teachers, education stakeholders and educational game designers by providing research‐based evidence related to the learning experiences and outcomes of the serious game‐based online course.     

A pilot study on the effectiveness and acceptance of an educational game for teaching programming concepts to primary school students

Educational games are increasingly used in informal and formal educational settings for promoting active learning and gaining students’ interest in cognitively demanding subjects, such as programming. However, empirical studies that investigate the true impact of educational games on teaching and learning programming, especially to small aged students, are limited. This article presents the results of a pilot study that utilized the educational game Run Marco for teaching basic programming concepts to primary school students. Students’ performance was studied through specially designed worksheets, while their acceptance of the intervention was evaluated through a questionnaire that was based on the principles of the Technology Acceptance Model (TAM). The results of the pilot study showed that the educational game supported students in comprehending basic programming concepts, while the results regarding the acceptance of its usage in the learning process were quite positive. However, the game did not succeed in raising students’ interest as expected and further research is necessary in order to study the reasons for this fact and make informed choices on designing and utilizing such games.     

Investigating Flow Experience and Scientific Practices During a Mobile Serious Educational Game

Mobile serious educational games (SEGs) show promise for promoting scientific practices and high engagement. Researchers have quantified this engagement according to flow theory. This study investigated whether a mobile SEG promotes flow experience and scientific practices with eighth-grade urban students. Students playing the game (n = 59) were compared with students in a business-as-usual control activity (n = 120). In both scenarios, students worked in small teams. Data measures included an open-ended instrument designed to measure scientific practices, a self-report flow survey, and classroom observations. The game players had significantly higher levels of flow and scientific practices compared to the control group. Observations revealed that game teams received less whole-class instruction and review compared to the control teams. Game teachers had primarily a guide-on-the-side role when facilitating the game, while control teachers predominantly used didactic instruction when facilitating the control activity. Implications for these findings are discussed.     

Is DNA Alive? A Study of Conceptual Change Through Targeted Instruction

We are involved in a project to incorporate innovative assessments within a reform-based large-lecture biochemistry course for nonmajors. We not only assessed misconceptions but purposefully changed instruction throughout the semester to confront student ideas. Our research questions targeted student conceptions of deoxyribonucleic acid (DNA) along with understanding in what ways classroom discussions/activities influence student conceptions. Data sources included pre-/post-assessments, semi-structured interviews, and student work on exams/assessments. We found that students held misconceptions about the chemical nature of DNA, with 63 % of students claiming that DNA is alive prior to instruction. The chemical nature of DNA is an important fundamental concept in science fields. We confronted this misconception throughout the semester collecting data from several instructional interventions. Case studies of individual students revealed how various instructional strategies/assessments allowed students to construct and demonstrate the scientifically accepted understanding of the chemical nature of DNA. However, the post-assessment exposed that 40 % of students still held misconceptions about DNA, indicating the persistent nature of this misconception. Implications for teaching and learning are discussed.     

Using Tutors to Improve Educational Games: A Cognitive Game for Policy Argument

How might we balance assistance and penalties to intelligent tutors and educational games that increase learning and interest? We created two versions of an educational game for learning policy argumentation called Policy World. The game (only) version provided minimal feedback and penalized students for errors whereas the game+tutor version provided additional step-level teaching feedback and immediate error correction. A total of 105 university students played either the game or game+tutor version of Policy World in a randomized, controlled, two-group, between-subjects experiment, during which we measured students’ problem-solving abilities, interest in the game, self-reported competence, and pre- and posttest performance. The game+tutor version increased learning of policy analysis skills and self-reported competence. A path analysis supported the claim that greater assistance helped students to learn analysis better, which increased their feelings of competence, which increased their interest in the game. Log data of student behavior showed that debate performance improved only for students who had sufficiently mastered analysis. This study shows that we can design interesting and effective games to teach policy argumentation and how increasing tutoring and reducing penalties in educational games can increase learning without sacrificing interest.     

Does embedding learning supports enhance transfer during game-based learning?

Educational video games are hypothesized to be good environments for promoting learning; however, research on conceptual learning from games is mixed. We tested whether embedding a learning support in the form of short animations illustrating physics concepts that can be used to aid gameplay improved learning. Ninety-six 7th to 11th grade students were randomly assigned to play Physics Playground with or without the learning supports over a 4-day period. Results indicate that students who played a version of the game with embedded learning supports showed more improvement on a far- (d = 0.36), but not on a near-transfer physics assessment (d = 0.17) compared to those who played without the supports. The learning supports did not affect students’ enjoyment with the game. We conclude that the game-embedded animations were effective at promoting conceptual learning without sacrificing the fun of game-based learning.     

Using a fine-grained multiple-choice response format in educational drill-and-practice video games

When using educational video games, particularly drill-and-practice video games, there are several ways of providing an answer to a quiz. The majority of paper-based options can be classified as being either multiple-choice or constructed-response. Therefore, in the process of creating an educational drill-and-practice video game, one fundamental question to be answered is which is the most appropriate response format? This paper answers this question, proposing a hybrid format that we call fine-grained multiple-choice, where the player constructs their response one element at a time, with each element chosen from a pre-defined set. A comparative study was conducted with second grade students. When comparing the impact of an educational drill-and-practice video game that uses multiple-choice with one that uses fine-grained multiple-choice, we observe that the fine-grained multiple-choice game achieved better results. However, the multiple-choice game was substantially more successful at capturing the students' interest and motivation. Considering the widespread use of the multiple-choice format in game-based learning activities, as well as in interactive activities, this research suggests rethinking what the most suitable answer format might be for each area of the curriculum and for the different types of games.     

Toward Understanding the Potential of Games for Learning: Learning Theory,Game Design Characteristics,and Situating Video Games in Classrooms

Researchers have argued that an effort should be made to raise teachers’ and parents’ awareness of the potentially positive educational benefits of playing video games (e.g., see Baek, 2008 Baek, Y.K. (2008). What hinders teachers in using computer and video games in the classroom? Exploring factors inhibiting the uptake of computer and video games. CyberPsychology & Behavior, 11, 665–671.[Crossref], [PubMed] , [Google Scholar]). One part of this effort should be to increase understanding of how video games can be situated within teachers’ existing goals and knowledge of learning and instruction. However, relatively little research on game-based learning addresses teachers (Ketelhut & Schifter, 2011), and for many a gap remains between the apparent enthusiasm of researchers and policy makers relative to the potential of educational games and the attendant practicalities of selecting and implementing video games in classroom settings. This article begins to bridge this gap by providing research-based areas of awareness and a discussion of factors that can facilitate understanding related to choosing and using video games. To this end, we show how educational games can be conceptualized from different theoretical perspectives on learning and discuss a number of essential design issues that educators should take into account when considering a video game for educational use.     

Examining the effects of combining self-explanation principles with an educational game on learning science concepts

Educational researchers have indicated that although computer games have the potential to promote students’ motivation and engagement, the work on how to design effective games that fulfil educational purposes is still in its infancy. This study aimed to examine how integration of self-explanation into a computer game affected primary schoolers’ acquisition of light and shadow concepts. The participants were randomly assigned to either an experimental group or a control group and played a computer game with or without self-explanation prompts individually as a treatment. Students’ conceptual understanding was evaluated through a pretest and a posttest administered right after the treatment. The results revealed that by controlling the pretest scores, students who played the game with self-explanation features did not outperform those who played the game without any prompts in the posttest. Further analyses of the experimental group students’ responses to the self-explanation prompts also indicated that the students with more correct responses to the prompts did not perform better than those with lower accuracy rates. The deficits in the use of self-explanation prompts are identified, and possible improvements to enhance the function of self-explanation in educational games are proposed.     

Implementation of Game-transformed Inquiry-based Learning to Promote the Understanding of and Motivation to Learn Chemistry

Many studies have used the potential of computer games to promote students’ attitudes toward learning and increase their learning performance. A few studies have transformed scientific content into computer games or developed games with scientific content. In this paper, we employed students’ common misconceptions of chemistry regarding the properties of liquid to develop a computer game. Daily life situations and everyday phenomena related to the chemical understanding of the properties of liquid were also taken into account. Afterward, we applied a process-oriented, inquiry-based active learning approach to implement the game in a Thai high school chemistry course. We studied the implementation of a game-transformed inquiry-based learning class by comparing it to a conventional inquiry-based learning class. The results of this study include aspects of students’ conceptual understanding of chemistry and their motivation to learn chemistry. We found that students in both the game-transformed inquiry-based learning class and conventional inquiry-based learning class had a significantly increased conceptual understanding of chemistry. There was also a significant difference between the gains of both classes between the pre- and post-conceptual understanding scores. Moreover, the post-conceptual understanding scores of students in the two classes were significantly different. These findings support the notion that students can better comprehend chemistry concepts through a computer game, especially when integrated with the process-oriented, inquiry-based learning approach. The findings of this study also highlight the game-transformed inquiry-based learning approach’s support of students’ motivation to learn chemistry.

     

Development and Effectiveness of an Educational Card Game as Supplementary Material in Understanding Selected Topics in Biology

The complex concepts and vocabulary of biology classes discourage many students. In this study, a pretest–posttest model was used to test the effectiveness of an educational card game in reinforcing biological concepts in comparison with traditional teaching methods. The subjects of this study were two biology classes at Bulacan State University–Sarmiento Campus. Both classes received conventional instruction; however, the experimental group''s instruction was supplemented with the card game, while the control group''s instruction was reinforced with traditional exercises and assignments. The score increases from pretest to posttest showed that both methods effectively reinforced biological concepts, but a t test showed that the card game is more effective than traditional teaching methods. Additionally, students from the experimental group evaluated the card game using five criteria: goals, design, organization, playability, and usefulness. The students rated the material very satisfactory.     

“I Forgot I Wasn’t Saving the World”: the Use of Formative and Summative Assessment in Instructional Video Games for Undergraduate Biology

This study examined the role of formative and summative assessment in instructional video games on student learning and engagement. A 2 (formative feedback: present vs absent) × 2 (summative feedback: present vs absent) factorial design with an offset control (recorded lecture) was conducted to explore the impacts of assessment in video games. A total of 172 undergraduates were randomly assigned to one of four instructional video game conditions or the control. Results found that knowledge significantly increased from the pretest for players in all game conditions. Participants in summative assessment conditions learned more than players without summative assessment. In terms of engagement outcomes, formative assessment conditions did not significantly produce better learning engagement outcomes than conditions without formative assessment. However, summative assessment conditions were associated with higher temporal disassociation than non-summative conditions. Implications for future instructional video game development and testing are discussed in the paper.     

Criteria-referenced formative assessment in the arts

The purpose of this study was to examine the effect of criteria-referenced formative assessment on achievement in the arts. Seventy-five schools in New York City were assigned to either the treatment or control condition. The treatment involved 3195 elementary, middle, or high school students instructed by 43 music, visual arts, theater, or dance teachers. The teachers were involved in a professional development program focused on formative assessment practices, particularly criteria-referenced peer and self-assessment. The control group consisted of 2445 students in classes instructed by 32 teachers who did not receive the professional development. Discipline-specific, performance-based pre- and post-measures were used to evaluate student learning. Fidelity of implementation was examined before the analysis of the treatment effect. Propensity score matching analysis was used to examine group differences in performance on the post-assessment. Results based on a sample of 611 matched pairs of students showed that, overall, criteria-referenced formative assessment had a statistically significant, positive effect (d = .26) on students’ arts achievement.     

Educational theories and computer game design: lessons from an experiment in elementary mathematics education

Although educational games have been used for a considerable time, their true potential for enhancing achievement and motivation is still being explored. We argue in this paper that we may get closer to realizing this potential if the theoretical underpinning of educational games is improved. We developed a simple interactive math game based on insights from cognitive load and game design theory, in which players solve mathematical problems competitively and creatively. To investigate the effects of the game on achievement and motivation, we ran an experiment with fifth- and sixth-grade students. Our results show that students who played the game achieved better math results than those who did not. We did not find any significant differences in math motivation. Another promising finding, albeit beyond the scope of our hypotheses, relates to the potential effects of math games on student behavior.