![]() Unconscious bias: Unconscious biases in hiring, promotion, and grant funding can disadvantage women and lead to their disproportionately low representation in STEM. Lack of role models: Women remain underrepresented in STEM leadership positions, which makes it harder for girls and women to find role models and mentors in the field. Stereotypes: Many individuals still associate STEM fields with masculine qualities, leading to stereotypes that can discourage girls and women from pursuing STEM education and careers. The gender gap in STEM has been attributed to several long-standing and deeply entrenched realities, including the following: viÄ®xamining the Stumbling Blocks: Factors Contributing to the Gender Gap in STEM ![]() Closing the gender gap will not only bolster sustainable tech-enabled growth and innovation but is also deemed an economic necessity. Addressing existing underrepresentation is critical as the world grapples with economic, environmental, geopolitical, societal, and technological risks. This disparity is concerning, as it leads to a lack of diversity and inclusion, and ultimately limits the potential of the STEM industry. The figure stands at 24% in the United States, ii 17% in the European Union, iii 16% in Japan, iv and 14% in India. If we look at places worldwide where we might hope to find better news, the statistics give us pause. In 2023, the gender gap in STEM remains significant, with women making up only 28% of the STEM workforce. Online Professional Certificate ProgramsÄespite progress in gender equity and growing interest over the last decade in computer science, engineering, math, and statistics among both men and women, the underrepresentation of women in the Science, Technology, Engineering, and Mathematics (STEM) fields continues to persist.Bundle Program Management of Technology.Applied Generative AI: Tap into the Future of Technology.Women in Leadership: Becoming an Agent of Change.Transformational Leadership: Five Practices of High Impact Innovators.Sustainability: Strategies and Opportunities For Industry.Sustainable Infrastructure Systems: Planning and Operations.Smart Manufacturing: Moving From Static to Dynamic Manufacturing Operations.Persuasive Communication: Critical Thinking to Enhance your Message.New Space Economy: Technologies, Products, Services, and Business Models.Management of Technology: Strategy & Portfolio Analysis.Management of Technology: Roadmapping & Development.Machine Learning: From Data to Decisions.Life Cycle Assessment: Quantifying Environmental Impacts.Industrial Internet of Things: From Theory to Applications.Forecasting Technology Innovation: Using Data for a Strategic Advantage.Digital Transformation: From AI and IoT to Cloud, Blockchain, and Cybersecurity.Digital Platforms: Designing Two-Sided Markets from APIs to Feature Roadmaps.Designing Product Families: From Strategy to Implementation. ![]()
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