The KQED science news team began a study with Texas Tech University to find out whether stories aimed at generating “awe” would drive deeper engagement with news features. From a preliminary study the team learned people can feel experiences like connectedness and vastness, not only through images but through a written story. The team intended to write their own science stories through an "awe" framework, but the pandemic redirected the team's work, and halted testing of participants’ response to the articles, which would have required the use of Texas Tech's Psychophysiology Lab.
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KQED, the Northern California PBS and NPR member station, and the College of Media & Communication at Texas Tech University have recently completed a $3 million grant from the National Science Foundation (NSF) for the project Cracking the Code (CTC): Influencing Millennial Science Engagement. The three-year grant provided funding for an unprecedented science media research initiative between science media professionals and science communication academics with the goal of identifying how best to engage younger, more diverse audiences with science media.
This report is the final process
KQED, the Northern California PBS and NPR member station, and the College of Media & Communication at Texas Tech University have recently completed a $3 million grant from the National Science Foundation (NSF) for the project Cracking the Code (CTC): Influencing Millennial Science Engagement. The three-year grant provided funding for an unprecedented science media research initiative between science media professionals and science communication academics with the goal of identifying how best to engage younger, more diverse audiences with science media.
This is the final outcomes report.
KQED, a San Francisco based public media organization, is interested in broadening participation and attracting and engaging a younger and more diverse audience, especially millennials, for their science media. The KQED science team is one of the largest reporting teams in the West with a focus on science news and it’s YouTube series, Deep Look.
This is a summary of Cracking the Code: Influencing Millennial Science Engagement, a three year media research project supported by NSF. The project brought together KQED science media professionals, academic science media researchers from Texas
The series of articles below is a study of Cracking the Code, one of the largest public investments in science media, journalism and science communication research collaborations, a project between KQED, Texas Tech and Yale Universities. KQED has the largest science reporting unit in the West focusing on science news and features including their YouTube series Deep Look.This series was written by Scott Burg from Rockman et al, the project's independent evaluator. Links to the articles in this series are below. The full articles in the series are posted on Medium.
A Three Year Case Study
This Innovations in Development project is funded by the Advancing Informal STEM Learning (AISL) program, which seeks to (a) advance new approaches to and evidence-based understanding of the design and development of STEM learning in informal environments; (b) provide multiple pathways for broadening access to and engagement in STEM learning experiences; (c) advance innovative research on and assessment of STEM learning in informal environments; and (d) engage the public of all ages in learning STEM in informal environments.
Increasing greater diversity, equity, and inclusion in science not only presents a social justice goal, but is also vital to the financial and social success of the nation. The stereotype of the older white male scientist has obscured the contributions of women and people of color. This project seeks to remedy these perceptions which are barriers to entry into STEM fields. The project will create a large-scale hub for STEM themed video content on YouTube and other social media platforms, featuring 100+ original STEM videos produced by PBS partners. This hub and accompanying research seeks to identify the characteristics of online STEM content that attract (or fail to attract) underrepresented groups, specifically Black and Hispanic communities as well as women of all races. The objectives of this project are to 1) provide a unified online science-themed hub, PBS Terra, on YouTube and other platforms for hosting, sharing, and distributing digital STEM series from diverse producers from across the PBS system; 2) conduct surveys and focus groups to examine and understand the needs and expectations of women, Black and Hispanic communities and their consumption of STEM video content online and 3) test hypotheses about the communicative strategies of STEM videos that feature Black and Hispanic female scientists. Project collaborators include PBS, researchers at the University of Utah and the University of Georgia, and consultants and advisors with expertise in broadening participation and inclusion in STEM.
Little is known about how or why adult Americans seek science content on YouTube, especially the motivations of adults from underrepresented minorities and females. The key research questions in this project are: 1) Why do Black and Hispanic audiences and women of all races seek science video content online? 2) How does showing Black and Hispanic female scientists in science video content on YouTube impact viewers’ identification with and sense of belonging in STEM? 3) How does the use of humor by Black and Hispanic scientists in YouTube science content affect viewers’ perceptions of the communicator and their engagement with STEM content? 4) How does the appearance and manner of dress of Black and Hispanic scientists in YouTube science content affect viewers’ perceptions in the aforementioned areas? A nationally representative baseline survey will be conducted. A probability sample of 2000 respondents will be obtained including oversampling of Black and Hispanic audiences. To complement findings from the survey, focus groups will be conducted in eight different regions of the country to learn why these targeted audiences do or do not seek science content on YouTube and what motivates them to share the content with their social media network. In addition, an experiment embedded in an online survey will test the hypothesis that greater on-screen representation of women and scientists of color will broaden existing perceptions about scientists. The experiment will consist of a 3 (scientist’s race: Black/Hispanic/White) × 2 (science issue: controversial/non-controversial) × 2 (style: casual/professional) between-subjects design. Survey participants will be randomly assigned to the experimental conditions. These factors (science issue and host appearance) can be altered by content producers to better reach and engage the targeted audiences. The project not only investigates theoretical questions at the intersection of STEM stereotypes and race, but findings related to these experimental conditions will offer practical insight into strategies that can be used by science communication practitioners.
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Adam DylewskiSara YeoMichael Cacciatore
Familiarity with statistical and data literacy is important in many areas of modern life, but there is little research on how adults continue to build mathematical literacy beyond formal schooling. Mass media science news stories contain much data, assuming that adults will understand the content.This 4-year project will first map the landscape of adult statistical literacy in the US, particularly as it relates to news consumption. The second phase will build on results from the first phase through a longitudinal study. In the third phase, the project will develop a range of experiments to manipulate mathematical explainers embedded in STEM news stories and test techniques with adult audiences, with the goal of identifying the attributes and affordances that best improve confidence and competence in the underlying math principles and their meaning to news stories. in addition to the research, project components include 12 broadcast video and social media pieces each year that will form the basis for testing with audiences, a one-day symposium for professional science journalists, and a written best practice guide that summarizes key findings and implications for practitioners.
Critical research questions are: How do mathematical competence and confidence differ among different segments of the adult population? How can STEM journalists improve adult mathematical competence and confidence through their reporting techniques? Phase 1 of the research will be a landscape review of mathematical content in the news including a baseline study of adult statistical literacy. Phase 2 will be a longitudinal study with news audiences recruited to participate in a panel study. Phase 3 will be iterative testing of the digital content based on the findings from Phases 1 and 2 and will use both focus groups and online testing. External evaluation will be conducted by TERC including an evaluation of the symposium for professional journalists.
The broader impacts of this project are twofold: the science videos created will be broadcast and made available free to a national audience including those in rural areas; and the training of science journalists has the potential for multiple, long term impact by increasing their ability to communicate statistics meaningfully to their readers/viewers.
This project is funded by the National Science Foundation's (NSF's) Advancing Informal STEM Learning (AISL) program, which supports innovative research, approaches, and resources for use in a variety of learning settings.