Why is there a gap between loving science and wanting to be a scientist?

<p>Australian Year 12 enrolment data shows that the number of enrolments in year 12 STEM subjects is on the rise&comma; yet the number of domestic students studying natural and physical sciences at university is falling&period;<&sol;p>&NewLine;<p>In fact&comma; the seven percent fall in tertiary science enrolment numbers between 2019 and 2023 is second only to the drop in initial teacher education &lpar;10&period;6 percent&rpar; and agriculture&sol;environmental studies &lpar;13&period;1 percent&rpar;&period;<&sol;p>&NewLine;<p><strong><a href&equals;"https&colon;&sol;&sol;www&period;school-news&period;com&period;au&sol;latest-print-issue&sol;" target&equals;"&lowbar;blank" rel&equals;"noopener">Read the latest print edition of <em>School News<&sol;em> HERE<&sol;a><&sol;strong><&sol;p>&NewLine;<p>If students are enrolling and presumably enjoying science at school&comma; then why aren’t they pursuing it as a career&quest;<&sol;p>&NewLine;<h4><strong>Image problem<&sol;strong><&sol;h4>&NewLine;<p>The gap between the number of high school and tertiary students studying science could have multiple causes&period;<&sol;p>&NewLine;<p>The level of commitment required to study science as a subject in high school is significantly less than pursuing it as a career&period; An interest in high school science might be driven by curiosity and a broad interest in the natural world and how it works&period; Students may also be influenced by the possibility of grades and scaling&period;<&sol;p>&NewLine;<p>A career in science on the other hand&comma; eventually requires specialisation and years of rigorous research&period; Students may be put off by the common image of scientists working alone in labs&comma; repeating experiments over and over&comma; writing reports and analysing data&period; There is also the perception that scientists working in universities constantly have to struggle for limited grants and resources and are driven by competitiveness&period;<&sol;p>&NewLine;<h4><strong>Gender imbalance<&sol;strong><&sol;h4>&NewLine;<p>Despite statistics showing that the number of girls studying some STEM subjects in high school is slowly on the increase&comma; there is still an ongoing image problem with science as a career for women&period;<&sol;p>&NewLine;<p>Last year&comma; we reported on a national team of <a href&equals;"https&colon;&sol;&sol;www&period;school-news&period;com&period;au&sol;news&sol;why-are-they-ignoring-women-scientists&sol;" target&equals;"&lowbar;blank" rel&equals;"noopener">researchers studying high school science curriculums<&sol;a>&period; They show that Australian students studying physics&comma; biology&comma; chemistry and environmental science were exposed to only a single female researcher across the four subjects&comma; British chemist Rosalind Franklin&comma; compared to almost 150 male scientists&period;<&sol;p>&NewLine;<p>Another issue facing girls in science is what is called the <a href&equals;"https&colon;&sol;&sol;www&period;school-news&period;com&period;au&sol;news&sol;girls-score-the-same-in-maths-and-science-as-boys-but-higher-in-arts-this-may-be-why-they-are-less-likely-to-pick-stem-careers&sol;" target&equals;"&lowbar;blank" rel&equals;"noopener">STEM advantage<&sol;a>&period; In a report by Silvia Griselda and Rigissa Megalokonomau&comma; they explain that students often choose which field they want to specialise in post-school by comparing themselves academically to their peers&period;<&sol;p>&NewLine;<p>&OpenCurlyDoubleQuote;If a student had a higher grade in STEM than reading and writing subjects&comma; we defined this student as having a <em>STEM advantage<&sol;em>&period; If this STEM advantage was greater than one of the students’ classmates&comma; this student had STEM as an <em>academic strength<&sol;em>&period; Because boys were generally better in science and maths than humanities&comma; they had a higher <em>STEM advantage<&sol;em>&period; As girls were only slightly better in science and maths than humanities&comma; their <em>STEM advantage<&sol;em> was lower than that of boys&period;”<&sol;p>&NewLine;<p>Griselda and Megalokonomau’s research showed that girls who were surrounded by male students who had a STEM advantage would be less likely to choose a career in STEM subjects&comma; despite their actual grades being similar&period;<&sol;p>&NewLine;<figure id&equals;"attachment&lowbar;28827" aria-describedby&equals;"caption-attachment-28827" style&equals;"width&colon; 578px" class&equals;"wp-caption alignnone"><img class&equals;"wp-image-28827" src&equals;"https&colon;&sol;&sol;www&period;school-news&period;com&period;au&sol;wp-content&sol;uploads&sol;2024&sol;10&sol;AdobeStock&lowbar;158426143-1024x685&period;jpeg" alt&equals;"" width&equals;"578" height&equals;"387" &sol;><figcaption id&equals;"caption-attachment-28827" class&equals;"wp-caption-text">© Rawpixel&period;com&comma; Adobe Stock<&sol;figcaption><&sol;figure>&NewLine;<h4><strong>International problem<&sol;strong><&sol;h4>&NewLine;<p>This is not a problem unique to Australian students&period;<&sol;p>&NewLine;<p>ASPIRES is a longitudinal research project in the UK studying youth science and career aspirations&period; Surveying more than 13&comma;000 Year 11 students&comma; researchers found the worrying trend that despite more than half agreeing that they learn interesting things in science lessons&comma; only 14&percnt; aspired to a career in science&period; In other words&comma; enjoying science does not necessarily translate into career aspirations as a scientist&period;<&sol;p>&NewLine;<p>Project head Professor Louise Archer&comma; has determined that one of the key indicators as to whether a student is likely to continue to study&comma; and ultimately work in science is their &OpenCurlyQuote;science capital&period;’<&sol;p>&NewLine;<p>Science Capital refers to a person’s understanding and knowledge not just scientific &OpenCurlyQuote;facts’ but of qualifications&comma; the broad range of science-related jobs and how science works&comma; and knowing someone who works in a science-related job&period;<&sol;p>&NewLine;<blockquote>&NewLine;<p><strong>&OpenCurlyDoubleQuote;Many students are not aware of the transferability of science qualifications – but those who are&comma; are ten times more likely to plan to study science post-16&period; <&sol;strong><strong>Students with low Science Capital are unlikely to see science as &&num;8216&semi;for me&&num;8217&semi;&period;” Professor Louise Archer<&sol;strong><&sol;p>&NewLine;<&sol;blockquote>&NewLine;<h4><strong>What is the solution&quest;<&sol;strong><&sol;h4>&NewLine;<p>To bridge the gap between interest in high school science and pursuing it as a career&comma; we must address the persistent misconceptions about STEM careers while also expanding students&&num;8217&semi; &&num;8220&semi;science capital&&num;8221&semi;&period;<&sol;p>&NewLine;<p>Addressing the gender imbalance of the &&num;8220&semi;STEM advantage&&num;8221&semi; is required to let girls understand that just because they are not quantifiably better at STEM than humanities&comma; does not mean they are not good at STEM&period;<&sol;p>&NewLine;<p>One solution would be revising curriculums to showcase not only gender and ethnically-diverse scientists but also the myriad career pathways and emphasise to students that a science education opens doors in numerous fields way beyond academia and laboratory research&period; This could be done with outreach programs&comma; incursions and excursions&comma; mentorship programs and guest lecturers that connect students with professionals in unexpected and far-reaching science-based roles&period;<&sol;p>&NewLine;<p>&nbsp&semi;<&sol;p>&NewLine;<div style&equals;"position&colon;relative&semi;padding-top&colon;max&lpar;60&percnt;&comma;326px&rpar;&semi;height&colon;0&semi;width&colon;100&percnt;"><iframe allow&equals;"clipboard-write" sandbox&equals;"allow-top-navigation allow-top-navigation-by-user-activation allow-downloads allow-scripts allow-same-origin allow-popups allow-modals allow-popups-to-escape-sandbox allow-forms" allowfullscreen&equals;"true" style&equals;"position&colon;absolute&semi;border&colon;none&semi;width&colon;100&percnt;&semi;height&colon;100&percnt;&semi;left&colon;0&semi;right&colon;0&semi;top&colon;0&semi;bottom&colon;0&semi;" src&equals;https&colon;&sol;&sol;e&period;issuu&period;com&sol;embed&period;html&quest;backgroundColor&equals;&percnt;23ffffff&&num;038&semi;backgroundColorFullscreen&equals;&percnt;23ffffff&&num;038&semi;d&equals;snau34-term&lowbar;4-2024&&num;038&semi;hideIssuuLogo&equals;true&&num;038&semi;u&equals;multimediaau><&sol;iframe><&sol;div>&NewLine;