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National Science Foundation
1.0
based on 1 Review
About National Science Foundation
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National Science Foundation Ratings
based on 1 reviews
Overall Rating
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National Science Foundation is rated 1.0 out of 5 stars on AmbitionBox, based on 1 company reviews.This rating reflects a below average employee experience, indicating poor satisfaction with the company’s work culture, benefits, and career growth opportunities. AmbitionBox gathers authentic employee reviews and ratings, making it a trusted platform for job seekers and employees in India.
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National Science Foundation Reviews
Compare National Science Foundation with Similar Companies
Change Company | Change Company | Change Company | ||
|---|---|---|---|---|
Overall Rating | 1.0/5 based on 1 reviews | 3.7/5 based on 92.1k reviews | 3.7/5 based on 54.4k reviews | 3.8/5 based on 58.2k reviews |
Highly Rated for | No highly rated category | Job security Work-life balance | Job security | Job security |
Critically Rated for | Skill development Work-life balance Salary | Promotions Salary Work satisfaction | Promotions Salary | Promotions |
Primary Work Policy | - | Work from office 81% employees reported | Hybrid 61% employees reported | Hybrid 75% employees reported |
Rating by Women Employees | - no rating available | 3.7 Good rated by 26.7k women | 3.8 Good rated by 15.6k women | 3.8 Good rated by 21.9k women |
Rating by Men Employees | - no rating available | 3.6 Good rated by 60.2k men | 3.7 Good rated by 36.3k men | 3.8 Good rated by 33.7k men |
Job security | 1.0 Bad | 4.5 Good | 3.8 Good | 3.8 Good |
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National Science Foundation Salaries
National Science Foundation salaries have received with an average score of 1.0 out of 5 by 1 employees.
Principal Scientific Officer
(1 salaries)
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₹2 L/yr - ₹2.5 L/yr
National Science Foundation News
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Rice Physicists Unlock Secrets of Strange Metals with Quantum Entanglement
- Rice University physicists made significant progress in unraveling the mysteries of strange metals, a class of materials with unconventional electrical and magnetic properties.
- Their research, published in Nature Communications, utilized quantum Fisher information to study electron interactions at quantum critical points in strange metals.
- Strange metals deviate from traditional metallic behavior, posing challenges with their resistance to electrical flow and unpredictable characteristics at low temperatures.
- The integration of quantum information theory into the study of strange metals sheds light on their complexities and exotic behaviors.
- By examining electron entanglement, the researchers identified peaks in entanglement at critical points, revealing insights into the materials' behavior.
- The study aligned theoretical predictions with experimental data from inelastic neutron scattering, linking quantum entanglement to the unique properties of strange metals.
- Unveiling the secrets of strange metals could lead to advancements in high-temperature superconductors, revolutionizing power transmission systems.
- This research not only offers academic insights but also holds promise for real-world applications in energy efficiency and material science.
- The collaboration involved a diverse team from Rice University and other institutions, supported by organizations like the National Science Foundation.
- The discovery of unique entanglement patterns in strange metals lays the groundwork for future quantum technologies and advancements in materials science.
Bioengineer | 29 Mar, 2025
Harnessing Ocean Currents to Power the Future
- Renewable energy options like wind and solar have gained popularity, but ocean currents present a largely untapped resource for generating clean electricity.
- A recent study analyzed over 30 years of global data on ocean currents, revealing promising areas for energy generation off Southeast Florida and South Africa.
- These regions have powerful ocean currents with power densities exceeding those of top wind energy sites, offering potential for efficient electricity production.
- Harvesting energy from ocean currents poses challenges due to deep waters and strong currents, requiring advanced technology and specialized deployment methods.
- Accurate measurements are crucial for successful ocean energy projects, with data from regions like North America proving reliable compared to areas with limited measurements.
- Seasonal variations in ocean currents influence energy production, aligning peak production with periods of increased energy demand in certain regions.
- Turning the potential of ocean currents into reality requires dedicated investment in advanced technologies, precise planning, and consideration of environmental impacts.
- Advancements in turbine technology and equipment durability suited for harsh ocean conditions are necessary for efficient harnessing of ocean current energy.
- The research, supported by major institutions like the National Science Foundation and the U.S. Department of Energy, highlights the significance of developing ocean current power as a clean energy resource.
- As technology evolves and more data is collected, ocean currents could play a vital role in meeting future energy demands sustainably, especially for coastal communities and islands.
Brighter Side of News | 28 Mar, 2025
Emerging Research Predicts Transformation in the Subtropical North Atlantic Ocean Within the Next Decade
- A recent study predicts significant transformations in the Subtropical North Atlantic Ocean over the next decade, based on observed cooling and freshening of deep waters in the region.
- The research, conducted by the University of Miami in collaboration with NOAA, highlights the potential migration of warmer, saltier deep waters to the Subtropical North Atlantic within the next ten years.
- The study emphasizes the importance of monitoring changes in the Atlantic Meridional Overturning Circulation (AMOC) due to its crucial role in global ocean circulation.
- Through a detailed analysis of deep oceanographic data along the 26.5°N line offshore of Abaco Island, the study reveals persistent cooling and freshening trends which may impact ocean currents and sea levels globally.
- The implications of these findings extend to potential disruptions in the AMOC, which could lead to climate irregularities and sea level fluctuations, necessitating sustained hydrographic monitoring in the North Atlantic.
- The study underscores the significance of continuous observation and data collection to enhance climate modeling and prepare for climate change-related challenges.
- Published in Nature Communications, the research elucidates the link between changing ocean dynamics and climate phenomena, advocating for interdisciplinary approaches to address climate threats.
- Supported by institutions like NOAA and the National Science Foundation, the study calls for collective action to understand and mitigate the impacts of climate change on ocean processes.
- The collaborative efforts among research institutes underscore the urgent need to protect our oceans and address climate-related questions through innovative approaches.
- As climate change poses significant challenges, the study emphasizes the importance of integrating scientific knowledge into decision-making processes for a sustainable future.
- In summary, the research findings emphasize the complex interplay between oceanographic processes and climate change, urging proactive measures to safeguard ocean health and environmental vitality.
Bioengineer | 26 Mar, 2025
Real-World Trials: UW’s Assistive Feeding Robot Tested Beyond the Laboratory
- Researchers at the University of Washington's Personal Robotics Lab have developed and tested a robotic feeding arm to assist individuals with motor impairments in eating independently, advancing from serving marshmallows to full meals.
- The project began at Carnegie Mellon University with a prototype capable of feeding marshmallows, evolving into a sophisticated technology that can serve diverse meal options and enhance social aspects of dining.
- Real-world trials outside the lab setting involved users with motor impairments feeding themselves in various environments, revealing challenges and the adaptability of the robotic arm.
- The robotic arm, ADA, uses a web application for bite selection, demonstrating high accuracy in acquiring entrees in cafeteria settings and adapting to user-specific conditions at home.
- Feedback from users like Jonathan Ko emphasized the importance of addressing environmental variables to enhance usability, paving the way for improved assistive technology.
- Continued user feedback and multidisciplinary collaboration drive advancements in autonomous feeding systems, prioritizing inclusivity and accessibility for individuals with mobility challenges.
- The project underscores the societal need for technology that enhances independence and social interactions through robotics, aiming to remove barriers and promote normalcy for users.
- With ongoing developments, this research signals a bright future for dining autonomy and social inclusion among individuals with motor disabilities, setting a blueprint for future assistive technologies.
- Funded by institutions like the National Science Foundation, this project exemplifies human-centered design and groundbreaking technology, laying the foundation for innovative assistive devices that blend seamlessly into users' lives.
- This initiative showcases the potential of robotics to enhance human experience and interactions by offering practical solutions and promoting engagement, setting a precedent for the future of assistive technology.
- In conclusion, the journey of this assistive feeding arm from lab to real-world application represents a mission-driven purpose of accessibility and inclusion, poised to impact academic research and daily lives positively.
Bioengineer | 5 Mar, 2025
Trump Administration cuts may threaten AI research efforts
- The Trump administration has fired a number of National Science Foundation employees, impacting key AI research.
- The Directorate for Technology, Innovation, and Partnerships at National Science Foundation, responsible for AI grants, has been affected.
- AI experts criticize the Trump administration's cuts to scientific grant-making, particularly the reductions championed by Elon Musk's Department of Government Efficiency.
- Musk responded to the criticism, apologizing and expressing a willingness to rectify any mistakes.
TechCrunch | 4 Mar, 2025
America's National Science Foundation workers fired in bulk by Trump reinstated
- The US government's National Science Foundation has reinstated most of its cadre of probationary employees after laying them off en masse last month.
- This decision followed a California federal court ruling that deemed similar government layoffs, resulting from a cost-cutting executive order by President Donald Trump, as unlawful.
- The National Science Foundation (NSF) made the reinstatement based on updated guidance from the Office of Personnel Management and the federal courts.
- Of the 170 employees laid off, 86 were classified as probationary, and 84 have been reinstated.
- The NSF coordinates funding for scientific studies and technology development in the US, with a workforce of about 1,500 employees and 200 temporary scientists.
- The OPM was found to have directed agencies to terminate probationary employees without sufficient discretion, leading to legal challenges and confusion in probationary periods.
- Judge Alsup ruled that the NSF's probationary terminations were unlawful, but the foundation was not directly covered by his decision.
- The chaos resulting from the mass terminations and subsequent reinstatements has caused confusion and disruption within the federal government.
- The OPM will have an evidentiary hearing to argue its case, but Alsup has indicated skepticism towards their arguments.
- Employees caught up in the layoffs faced challenges with performance claims and lack of agency discretion in termination decisions.
The Register | 4 Mar, 2025
National Science Foundation staff axed by Trump fear for US scientific future
- The National Science Foundation has cut staff to comply with President Trump's order for federal government layoffs, raising concerns over the impact on scientific and technological research in the US.
- 86 probationary employees and 84 part-time expert appointees were terminated, affecting about 10% of the NSF workforce.
- The agency serves as a funding body for scientific progress and innovation rather than conducting its own research.
- Concerns have been raised about the future of US scientific innovation and the NSF itself as morale among employees has plummeted.
- NSF budget cuts have been predicted, with a potential scenario cutting the foundation's workforce by half and reducing its budget significantly.
- Several employees terminated were not aware they were at risk, as the NSF applied probation rules incorrectly, affecting workers between 12 and 24 months of employment.
- With the loss of program managers and scientists, the NSF's ability to oversee grants and issue funding is at risk, impacting the future of STEM workforce and economic prospects in the US.
- Concerns have been raised about detrimental effects on scientific literacy, economic dividends, and global education market if NSF budget cuts proceed.
- Cutting funding for short-term savings may hinder long-term investment in American science and innovation.
- The uncertainties surrounding the NSF's future and its impact on US scientific leadership remain pressing concerns for the scientific community.
The Register | 21 Feb, 2025
Revolutionary Light-Powered Technique Enhances Precision in Quantum Dot Tuning
- Researchers at NC State have developed a light-driven technique that enhances the optical properties of quantum dots, improving efficiency and sustainability.
- The method involves bandgap tuning in perovskite quantum dots using light-driven reactions and a microfluidic system for precise control.
- By altering exposure to chlorine or iodine, the emission spectrum of quantum dots can be shifted towards blue or red, allowing for tunability in optical properties.
- This innovative approach accelerates photochemical processes, leading to high-quality quantum dots with desired characteristics for diverse applications.
- The research bridges quantum mechanics with practical applications, revolutionizing quantum dot technology for lighting, solar cells, and more.
- Efficiency and rapid reaction times distinguish this method, offering potential for integrated quantum dot applications in consumer devices.
- The study, published in Advanced Materials, highlights the sustainable approach that aligns with global efforts for more eco-friendly material manipulation.
- Supported by NC State's Center for Accelerated Photocatalysis and the NSF, interdisciplinary collaboration played a key role in this research.
- Future plans involve scaling up processes for commercial optoelectronic applications across various industries, promising product performance enhancements.
- NC State's innovative technique represents a milestone in quantum dot technology, emphasizing the fusion of innovation and sustainability for technological progress.
Bioengineer | 19 Feb, 2025
US science in chaos as impact of Trump’s executive orders sinks in
- Scientists in the US are facing challenges due to executive orders from President Donald Trump, resulting in slashed research funding, staff layoffs, and suspended programs.
- Various government departments and organizations are cutting DEI programs, removing climate change references from websites, and pausing research grants to comply with new administration goals.
- Trump's orders have impacted agencies like the US Agency for International Development, National Science Foundation, and National Oceanic and Atmospheric Administration.
- NSF was asked to lay off staff and reduce its budget significantly, causing chaos among grant recipients and research community.
- Anti-DEI actions by the Trump administration have affected NASA, research labs, and educational institutions, leading to removal of diversity mentions and suspension of DEI initiatives.
- Critics argue that dismantling federal DEI programs will harm millions and weaken the US, with concerns raised about potential long-term damage to scientific leadership and innovation.
- Actions taken by the Trump administration, such as funding cuts and removing advisers, have raised concerns about the future of scientific research and advancement in the country.
- Criticism has been directed at the nomination of individuals like Neil Jacobs and the role of Elon Musk's team in identifying spending cuts across government agencies.
- Opponents fear that reduced funding for research projects could jeopardize scientific progress and clinical research, potentially impacting lives and educational institutions.
- Overall, the impact of Trump's executive orders on science in the US is viewed as chaotic and potentially leading to a period of setback and challenges in the field.
Physicsworld | 13 Feb, 2025
Revolutionizing Drone Management: Engineers Unveil Affordable UAV Detection Technology
- Engineers at Brigham Young University (BYU) have developed a low-cost air traffic control system for drones using small radar units that can be deployed at a fraction of the cost of conventional multi-million-dollar radar systems.
- The system, which can be optimally deployed on existing structures like lamp posts and cell towers in densely populated areas, is designed for efficiency and reliability, the two qualities lacking in traditional air traffic control systems that are primarily designed for manned aircraft.
- Ground-station computers are interconnected with multiple radar units that command a different section of the sky
- Each radar unit records the position of any moving objects within its sight, which is then transmitted, converted into a global coordinate system, and shared with other ground stations in real-time
- The primary challenge with this technology is ensuring all the radar units interpret the position of an airplane (or drone, in this case) consistently. Still, this accuracy is critical for not just real-time tracking but for future developments in automated and semi-automated drone traffic management.
- The team received financial backing from the National Science Foundation to pursue this line of research aimed at establishing more reliable real-time drone tracking to prevent mid-air collisions involving drones.
- This innovative system incorporates several key functionalities that allow it to track drones effectively, Enabling multiple companies to share the same airspace and foster greater innovation with drone delivery's inclusion, benefiting consumers and businesses alike
- With this newfound investment and capability, urban areas could experience a future where drones coexist with traditional aircraft, enhancing services while minimizing risks associated with aerial traffic congestion.
- Considering the growth of drone usage globally, the need for effective management of low-altitude airspace has become increasingly critical; this technology provides innovative solutions for combating this challenge.
- The newly developed drone monitoring system proposes to offer a low-cost and practical alternative to traditional systems with advanced features needed for managing drone air travel safely and efficiently, leading the way to affordable airspace management for drones.
Bioengineer | 11 Feb, 2025
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