It’s possible that I shall make an ass of myself. But in that case one can always get out of it with a little dialectic. I have, of course, so worded my proposition as to be right either way (K.Marx, Letter to F.Engels on the Indian Mutiny)
Thursday, November 06, 2025
APA poll reveals a nation suffering from stress of societal division, loneliness
Most U.S. adults report feeling isolated, in need of more emotional support
Loneliness and emotional disconnection appear to have become a defining feature of life in America, as a majority of U.S. adults say societal division is a significant source of stress in their lives, according to the latest Stress in America™ survey released today by the American Psychological Association.
More than six in 10 U.S. adults reported feeling this way, while half or more adults said they felt isolated (54%), left out (50%) or lacking companionship (50%) often or some of the time.
The survey, conducted online by The Harris Poll on behalf of APA, found that among more than 3,000 U.S. adults, nearly seven in 10 (69%) said they needed more emotional support in the past year than they received — an increase from 65% in 2024. This growing gap between emotional needs and available support highlighted a critical challenge: Even as adults recognize their need for connection, many are struggling to find it.
“This year’s findings show that people across the nation are not just feeling divided, they’re feeling disconnected,” said Arthur C. Evans Jr., Ph.D., CEO of APA. “Research tells us that a sense of isolation and social fragmentation can have real consequences for our ability to manage stress and stay healthy.”
The survey found that societal division may have intensified feelings of loneliness and it could have a measurable impact on health and well-being. Among adults who said societal division was a significant source of stress, 61% reported feeling isolated, compared with 54% of all adults and just 43% of those who did not cite division as a major stressor.
The data paints a troubling picture of U.S. adults stretched thin between societal division and personal disconnection. Adults who cited societal division as a significant source of stress were more likely to lose patience with family members (60% vs. 49% of those not significantly stressed by division), cancel plans (55% vs. 37%) and struggle to plan for the future (53% vs. 37%) due to stress.
Survey data also revealed that those who experience high levels of loneliness were more likely to also be struggling with their physical and mental well-being than those with low loneliness levels. The most common symptoms included feeling depressed or sad (65% vs. 15%), feeling nervous or anxious (60% vs. 24%), fatigue (53% vs. 24%) and headaches (48% vs. 25%).
“Psychological research shows us that loneliness and isolation may increase the risk of premature mortality and are also linked with depression, poor sleep and cognitive decline. We also know that social support is one of the strongest predictors of people’s well-being, reinforcing that connection is vital to our health. Reaching out, showing up and building community are not optional, they’re essential,” Evans said.
Concerns about the future of the country also weighed heavily on the minds of many respondents. Three-quarters of adults (75%) reported they are more stressed about the country’s future than they used to be. When asked what America represents today, respondents most commonly chose terms that reflected a mix of hope and disillusionment: freedom (41%), corruption (38%), opportunity (37%), division (36%), hope (35%) and fear (32%).
This year’s survey also showed many are evaluating what gives their lives meaning and purpose. An overwhelming 92% of adults recognized relationships as a key source of meaning in their lives. Family emerged as the most commonly selected source of meaning (77%), followed by friendships (62%), romantic relationships (47%) and pets (39%). Further, goals like financial stability/security (64%), maintaining or improving health (60%) and spending time with family/friends (53%) topped the list of future dreams.
Ultimately, a strong majority of adults remain hopeful about their ability to build a fulfilling life; 84% said they believe they can still create a good life, even if it looks different from past generations.
“People may be reevaluating what gives their lives meaning, but they haven’t given up on finding that purpose,” said Evans. “Even as many feel disillusioned, they’re focusing on what they can control — nurturing their relationships, building financial stability and improving their health. That mix of hope and concern captures where America is today: Anxious, yes, but still striving for fulfillment.”
The 2025 Stress in America™ survey was conducted online within the United States by The Harris Poll on behalf of the American Psychological Association (APA) between Aug. 4 – 24, 2025, among 3,199 adults age 18+ who reside in the U.S., which serves as a nationally representative sample. In addition to the national sample, oversamples were collected to allow for subgroup analysis by race/ethnicity. Sample sizes across the oversamples were as follows: 800 Black, 809 Latino/a/e and 800 Asian. The total sample also included 81 individuals who identified as only Native American or Alaskan Native/Native Hawaiian or Pacific Islander, which falls below the standard threshold for reporting (n ≥ 100). For Latino/a/e respondents, interviews were conducted in English or Spanish.
This survey included data quantifying loneliness using the UCLA Three-Item Loneliness Scale.
DURHAM, N.H.—(November 6, 2025)—A multidisciplinary team of undergraduate students from three different universities has designed and built a mini satellite, known as a CubeSat, that will launch into space to gather data in collaboration with NASA’s Interstellar Mapping and Acceleration Probe (IMAP) mission. The small-but-mighty satellite is set to launch on a SpaceX rocket from Vandenberg Space Force Base in California no earlier than Nov. 10, 2025 at 10:19 a.m. PST. It will head to the outer reaches of the atmosphere to study the solar wind which will help scientists in their quest to improve space weather forecasting and better protect technology in space and on Earth— such as communication networks, power grids and GPS —from potentially damaging large solar flare events.
The team of 70 undergraduate students from the University of New Hampshire (UNH), Sonoma State University (SSU) and Howard University (HU) designed, developed and built the satellite which was named 3UCubed—reflecting the overall concept of uplifting undergraduate students to study upwelling, and giving a nod to the three participating universities.
Launched following its selection as part of NASA’s CubeSat Launch Initiative, the satellite will travel to the Earth’s upper atmosphere, known as thermosphere, which is the same region where many other satellites and the International Space Station orbit around Earth. It will take measurements of the atmosphere density (single oxygen at this altitude) and electron precipitation from space onto the upper atmosphere. Data from the mission will be collected by the students and analyzed in combination with data from IMAP and will help advance the understanding of how the thermosphere in the auroral and cusp regions responds to particle precipitation and varying conditions associated with solar wind.
CubeSats are a specific subset of satellites that are small and standardized and provide a cost-effective way to study space science. It is about the size of a loaf of bread and offers a simpler way to start building and operating than larger satellites, making it an ideal piece of equipment for students to hone their skills outside of the classroom.
The students worked for five years on the satellite, performing a variety of tasks ranging from creating the software code that controls the 3UCubed to soldering the wires during the physical build. Students with mentorship from professors and staff engineers, performed trade studies, orbit analyses, selected vendors for different subsystems, oversaw budgets for various mass, power, link and telemetry jobs and developed the framework for the flight software and operations.
“At the time, I had a keen interest for the aerospace industry and saw this as a great opportunity to get valuable experience working with industry professionals,” said Alex Chesley ’22, who studied mechanical engineering at UNH and was a part of the 3UCubed team. “It was fascinating to learn about so many new subjects about space science and instrumentation that I had never studied before.”
The hands-on experience is meant to introduce, inspire and prepare students for a successful career in a related field like space science, computer science, engineering or science education. Chesley designed the initial CAD model of the satellite and also helped create the detailed specification list for the CubeSat’s altitude control system. He now works as a configuration engineer at STS Aerospace in Laconia, N.H., where he helps develop fluid distribution systems for customers in the space, aeronautics and defense industries.
The 3UCubed satellite was fully assembled at UNH and the two payload instruments that are a part of its structure were built, tested and calibrated at UNH. Students from UNH took the lead in developing the instrument software and worked with students from SSU on the flight software. SSU oversaw the development of the software for the ground station and will serve as the primary ground station for the mission, which will collect the data from the satellite and will send commands to the spacecraft so it can adjust once it is in orbit. UNH worked with HU to build the back up ground station.
“The SSU CubeSat Project had a profound impact on my personal and professional growth,” said Haley Joerger ’24, who studied computer science at SSU. “The mentorship I received was instrumental in building my confidence and guiding my development. Working on the CubeSat hardware provided me with valuable experience in instrumentation, a skill that I now apply in my role as an application engineer at Keysight Technologies. I am also deeply grateful for the lifelong friendships I formed with my teammates—connections that continue to enrich my life to this day.”
Students from Sonoma State University have also engaged with their region’s amateur radio operators and Scout members to construct a ground station for them to communicate with the satellite.
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The University of New Hampshire inspires innovation and transforms lives in our state, nation and world. More than 15,000 students from 50 states and 87 countries engage with an award-winning faculty in top-ranked programs in business, engineering, law, health and human services, liberal arts and the sciences across more than 200 programs of study. A Carnegie Classification R1 institution, UNH partners with NASA, NOAA, NSF, and NIH, and received over $250 million in competitive external funding in FY24 to further explore and define the frontiers of land, sea and space.
Caption: Some of the 3UCubed mission team—including students, faculty and staff from the University of New Hampshire, Sonoma State University and Howard University—presenting at the American Geophysical Union annual meeting.
Caption: Anthony Santo ’25, who majored in Computer Science at UNH, tested software for the 3UCubed mission’s CubeSat. He wrote code for the Instrument’s data collection and ground station operations.
Caption: Sanjeev Mehta, a UNH research project engineer for the 3UCubed mission, inspects the CubeSat during the integration at Maverick Space Systems lab in San Luis Obispo, CA.
Photo credit: UNH
Austrian satellite mission PRETTY continues under the leadership of Graz University of Technology
The Austrian Space Agency and the European Space Agency (ESA) have approved the mission's continuation. In future, the CubeSat PRETTY will operate as part of the OPS-SAT Space Lab. The project management will be transferred to TU Graz.
For over two years, the Austrian mini-satellite PRETTY has orbited the Earth at an altitude of just over 500 kilometres in a sun-synchronous polar orbit. Following the commissioning phase at the end of 2023, it provided continuous data on changes in polar ice and sea levels, as well as the effects of space weather on a satellite’s lifespan. Although the mission was originally planned to last one year, it is now certain that the mission of the satellite (jointly developed by TU Graz, Beyond Gravity Austria, and Seibersdorf Laboratories) will continue in a new form under the name OPS-SAT PRETTY. This has been confirmed by the Austrian Space Agency (ALR) of the Austrian Research Promotion Agency (FFG) and the European Space Agency (ESA). “The PRETTY mission has been highly successful so far, which is why we at the Austrian Research Promotion Agency (FFG), and ESA have agreed to extend the mission until December 2026, providing the necessary budget funds totalling 365,000 euros,” says FFG Managing Director Karin Tausz. As part of the extension, project management will transfer from Beyond Gravity, Austria's largest aerospace supplier, to Graz University of Technology (TU Graz), which operates the PRETTY ground station at Campus Inffeldgasse.
The new task is to act as a flying laboratory
In future, the satellite renamed to OPS-SAT PRETTY will function as an experimental platform as part of the OPS-SAT Space Lab (https://opssat.esa.int/). This was already the case for OPS-SAT, also built at TU Graz. After a successful four-and-a-half-year mission, OPS-SAT burnt up on entering the Earth's atmosphere in May 2024. It successfully demonstrated the advantages of such experimental platforms for ESA. These platforms enable organisations, companies, and private individuals to conduct software and firmware experiments during active operations, which would not be possible with other missions. OPS-SAT PRETTY is also equipped with various subsystems, offering Austrian and international parties interested in space research a flexible, freely configurable platform for their ideas and experiments.
“Although the original PRETTY mission was designed to last just one year, we are delighted that our satellite can now continue to provide valuable services,” says Project Manager Manuela Wenger from the Institute of Communication Networks and Satellite Communications at TU Graz. “Of course, we are also quite proud of the fact that PRETTY has proven to be very reliable after OPS-SAT and TUGSAT-1, the first Austrian satellite in space, which we also built at TU Graz.” Manuela Wenger is joined in the project team at TU Graz by Andreas Hörmer and Maximilian Henkel.
Scientific data from PRETTY is sent from Graz to the rest of the world
PRETTY has mastered its original scientific mission with flying colours. “We tested a brand new technology in space for the first time and proved that important climate data can be obtained with a mini-satellite the size of a shoebox, which would otherwise require a much larger and more expensive satellite,” says Andreas Dielacher, the responsible systems engineer at Beyond Gravity. “We have developed important expertise in the payload area, the centrepiece of a satellite.” This new technology is a passive reflectometer developed by Beyond Gravity, which measures signals reflected by ice, water, and land masses from European and American navigation satellites. Climate scientists can use this information to draw conclusions about environmental data. Andreas Dielacher continues: “The data from our reflectometer was sent directly to us from the ground station at TU Graz and then passed on to the scientists.” TU Graz developed the necessary hardware platform on the satellite.
Also on board of PRETTY is the SATDOS dosimeter, which was developed by Seibersdorf Laboratories and measures exposure to space radiation and its effects on the satellite's electronic components. “Thanks to SATDOS, we were able to collect detailed radiation data directly from PRETTY's orbit for the first time,” explains Christoph Tscherne, radiation resistance expert and project manager at Seibersdorf Laboratories. “Our results show that radiation exposure in space can have a significant impact on satellite electronics. Commercially available standard components, which are increasingly being used in spaceflight, are particularly vulnerable.”
Higher levels of greenness are associated with lower risks of hospital admissions for mental disorders, finds an analysis of data from seven countries over two decades, published in The BMJ’s climate issue today.
The results suggest that this protective effect increases with greater exposure to greenness, with no clear threshold - evidence that can inform urban design and health policy to better protect mental health, say the researchers.
Mental wellbeing remains a global challenge. It’s estimated that 1.1 billion people had mental disorders in 2021, contributing to 14% of the global disease burden with associated economic and societal costs.
Growing evidence suggests that exposure to greenness might reduce the risk of mental disorders, but most previous studies are limited to single countries, short term exposures, or specific mental health outcomes.
To address these gaps, researchers analysed 11.4 million hospital admissions for mental disorders from 6,842 locations in seven countries (Australia, Brazil, Canada, Chile, New Zealand, South Korea, and Thailand) from 2000 to 2019.
They included all cause mental disorders and six specific categories (psychotic disorders, substance use disorders, mood disorders, behavioural disorders, dementia, and anxiety).
Greenness was measured by the normalised difference vegetation index (NDVI), a widely used and reliable satellite derived metric for assessing vegetation levels in a given area.
Factors including population levels, weather conditions, air pollutants, socioeconomic indicators and seasonality were taken into account and models were stratified by sex, age, urbanisation, and season.
The results show that local greenness was associated with a 7% reduction in hospital admissions for all cause mental disorders, with stronger associations for substance use disorders (9%), psychotic disorders (7%), and dementia (6%).
However, associations varied across countries and disorders. For example, Brazil, Chile, and Thailand showed consistent protective associations across most disorders, while in Australia and Canada, greenness was associated with modestly increased risks for all cause mental disorders and for several specific disorders.
Overall, protective associations were strongest in urban areas, where an estimated 7,712 hospital admissions for mental disorders annually were potentially preventable through greater exposure to greenness.
Seasonal patterns were also found in urban areas, suggesting that climate and weather conditions play a crucial role in how green spaces are used and perceived, say the authors.
Further analysis in urban areas suggested that a 10% increase in greenness was associated with fewer hospital admissions for mental disorders ranging from around 1 per 100,000 in South Korea to approximately 1,000 per 100,000 in New Zealand.
This is an observational study so no firm conclusions can be drawn about cause and effect and the authors acknowledge the uncertainties of using hospital admission data from multiple countries. They also point out that their results only capture severe disorders requiring inpatient care so underestimate the full burden of mental health.
Nevertheless, they say this study suggests “a considerable proportion or rate of hospital admissions for mental disorders may be associated with exposure to greenness and could potentially be reduced through greening interventions under realistic scenarios.”
“These mental health benefits may also bring broader economic and social advantages, including reduced healthcare costs, less strain on health systems, improved workplace productivity, and enhanced community wellbeing.”
Future research should aim to explore the differential effects of various types of green spaces, such as parks or forests, on mental health outcomes, and focus on assessing the quality and accessibility of green spaces, they add.
Greenness and hospital admissions for cause specific mental disorders: multicountry time series study
Article Publication Date
5-Nov-2025
COI Statement
All authors have completed the ICMJE uniform disclosure form at www.icmje.org/disclosure-of-interest/ and declare: support from the Australian Research Council and Australian National Health and Medical Research Council; no financial relationships with any organisations that might have an interest in the submitted work in the previous three years; no other relationships or activities that could appear to have influenced the submitted work
