There has been an increased push for science, technology, engineering, and mathematics (STEM) students and scientists to be trained in science communication. Science communication researchers have outlined various models of how scientists interact with nonscientists—including deficit, dialogue, and inclusive approaches. We wanted to analyze whether published science communication curricula for STEM students and scientists exhibit features of inclusive science communication.
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TEAM MEMBERS:
Randy VickeryKatlyn MurphyRachel McMillanSydney AlderferJasmine DonkohNicole Kelp
Informal STEM learning experiences (ISLEs), such as participating in science, computing, and engineering clubs and camps, have been associated with the development of youth’s science, technology, engineering, and mathematics interests and career aspirations. However, research on ISLEs predominantly focuses on institutional settings such as museums and science centers, which are often discursively inaccessible to youth who identify with minoritized demographic groups. Using latent class analysis, we identify five general profiles (i.e., classes) of childhood participation in ISLEs from data
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TEAM MEMBERS:
Remy DouHeidi CianZahra HazariPhilip SadlerGerhard Sonnert
Doctoral students in science disciplines spend countless hours learning how to conduct cutting-edge research but very little time learning to communicate the nature and significance of their science to people outside their field. To narrow this disparity, we created an unusual course titled Communicating Science for doctoral science trainees at Rutgers University. Our goal was to help students develop an advanced ability to communicate their research clearly and accurately and to emphasize its value and significance to diverse audiences. Course design included classroom instruction
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TEAM MEMBERS:
Nicholas PonzioJanet AlderMary NucciDavid DannenfelserHolly HiltonNikolaos LinardopoulosCarol Lutz
Having a central scientific language remains crucial for advancing and globally sharing science. Nevertheless, maintaining one dominant language also creates barriers to accessing scientific careers and knowledge. From an interdisciplinary perspective, we describe how, when, and why to make scientific literature more readily available in multiple languages through the practice of translation. We broadly review the advantages and limitations of neural machine translation systems and propose that translation can serve as both a short- and a long-term solution for making science more resilient
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TEAM MEMBERS:
Emma SteigerwaldValeria Ramírez-CastañedaDébora Y C BrandtAndrás BáldiJulie Teresa ShapiroLynne BowkerRebecca D Tarvin
An individual's sense of themselves as a “STEM person” is largely formed through recognition feedback. Unfortunately, for many minoritized individuals who engage in STEM (science, technology, engineering, and mathematics) in formal and informal spaces, this recognition often adheres to long-standing exclusionary expectations of what STEM participation entails and institutionalized stereotypes of what it means to be a STEM person. However, caregivers, who necessarily share cultural backgrounds, norms, and values with their children, can play an important role in recognizing their children's
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TEAM MEMBERS:
Heidi CianRemy DouSheila CastroElizabeth Palma-D'souzaAlexandra Martinez
resourceresearchProfessional Development, Conferences, and Networks
As science communication programs grow worldwide, effective evaluation and assessment metrics lag. While there is no consensus on evaluation protocols specifically for science communication training, there is agreement on elements of effective training: listening, empathy, and knowing your audience — core tenets of improvisation. We designed an evaluation protocol, tested over three years, based on validated and newly developed scales for an improvisation-based communication training at the Alan Alda Center for Communicating Science. Initial results suggest that ‘knowing your audience’ should
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TEAM MEMBERS:
Christine O’ConnellMerryn McKinnonJordan Labouff
Many studies have examined the impression that the general public has of science and how this can prevent girls from choosing science fields. Using an online questionnaire, we investigated whether the public perception of several academic fields was gender-biased in Japan. First, we found the gender-bias gap in public perceptions was largest in nursing and mechanical engineering. Second, people who have a low level of egalitarian attitudes toward gender roles perceived that nursing was suitable for women. Third, people who have a low level of egalitarian attitudes perceived that many STEM
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TEAM MEMBERS:
Yuko IkkataiAzusa MinamizakiKei KanoAtsushi InoueEuan McKayHiromi M. Yokoyama
In this article, we follow up on food scientists' findings that people judge new food technologies and related products (un)favourably immediately after just hearing the name of the technology. From the reactions, it appears that people use their attitudes to technologies they know to evaluate new technologies. Using categorization theory, in this study we have found that, by triggering associations with a familiar technology, a name of the new technology can be enough to determine emerging attitudes. Comparison between the technology used for categorization and another familiar technology had
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TEAM MEMBERS:
Reginald BoersmaP. Marijn PoortvlietBart Gremmen
An independent evaluator and a group of investigators from three AISL projects focused on public engagement with science (PES) collaborated on a paper about research-practice partnerships for PES. This two-page brief summarizes their key points.
Counterspaces in science, technology, engineering, and mathematics (STEM) are often considered “safe spaces” at the margins for groups outside the mainstream of STEM education. The prevailing culture and structural manifestations in STEM have traditionally privileged norms of success that favor competitive, individualistic, and solitary practices—norms associated with White male scientists. This privilege extends to structures that govern learning and mark progress in STEM education that have marginalized groups that do not reflect the gender, race, or ethnicity conventionally associated with
Community voice, alongside academic voice, is essential to the core community engagement principle of reciprocity—the seeking, recognizing, respecting, and incorporating the knowledge, perspectives, and resources that each partner brings to a collaboration. Increasing the extent to which academic conferences honor reciprocity with community members is important for many reasons. For example, community perspectives often enhance knowledge generation and potentially transform scholarship, practice, and outcomes for all stakeholders. However, community presence and participation at academic
Context
Engaging youth as partners in academic research projects offers many benefits for the youth and the research team. However, it is not always clear to researchers how to engage youth effectively to optimize the experience and maximize the impact.
Objective
This article provides practical recommendations to help researchers engage youth in meaningful ways in academic research, from initial planning to project completion. These general recommendations can be applied to all types of research methodologies, from community action-based research to highly technical designs.
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TEAM MEMBERS:
Lisa HawkeJacqueline RelihanJoshua MillerEmma McCannJessica RongKarleigh DarnaySamantha DochertyGloria ChaimJoanna Henderson