Ever wonder what the planet will look like in a hundred years? The question stays in the back of our minds even though we know we won’t be here to see it. It is in our nature as mortals to think about the future, especially one that appears far off but within reach for our offspring.
Over the course of the next century, debates will undoubtedly center on issues related to technology, job trends, genetic engineering, and the environment.
Artificial intelligence and virtual reality will become more and more integrated into society, changing the way people interact with each other and their environment. But this technological upsurge might also make individuals feel more alone and disconnected from one another.
The development of genetic engineering would enable people to alter their DNA either during pregnancy or throughout life, which could lead to the eradication of many diseases but also provide moral quandaries and exacerbate social injustices.
There has been significant advancement in healthcare, education, and living standards when comparing the modern world to that of a century ago. However, advancements also bring with them new difficulties, which we predict will surface within the next century.
There have been notable developments every century that have improved human well-being in general. Some contend that overall life pleasure is declining rather than technical innovation, which is advancing at an unparalleled rate.
Many contend that lifestyle quality has declined in recent years, prompting concerns about our future trajectory. Will this trend persist? Could we be on a path toward losing our conventional way of life, surrendering privacy to a technological dystopia?
These questions prompt us to examine nearly every facet of our lives and the world’s trajectory over the next century.
Global Demographics
Population Growth
The world’s population is projected to reach 9.7 billion by 2050 and 10.43 billion by 2100. This growth is anticipated to be unevenly distributed, with the majority occurring in sub-Saharan Africa and South Asia.
Although fertility rates are decreasing in numerous regions, they persist at high levels in these areas, resulting in a younger and swiftly expanding population.
It’s important to acknowledge that the population will peak around the mid-2080s—consequently, the world’s population will be approximately 10 billion a century from now on in the next century.
Urbanization Trends
The migration trend from rural regions to urban centers is anticipated to persist over the next century, with the global urban population projected to reach 68% by 2050. Over the subsequent 100 years, this percentage could escalate to as high as 75%.
This shift will be especially notable in developing nations, where cities are experiencing unparalleled growth rates. Rapid urbanization presents challenges, including heightened demands for resources and infrastructure and environmental degradation.
Technological Advancements
Artificial Intelligence
Artificial Intelligence (AI) has been advancing rapidly and is poised to revolutionize the world over the next 100 years. AI can transform industries such as healthcare, transportation, and manufacturing.
In the future, AI will be able to learn and adapt to new situations at a pace surpassing that of humans. This will spur the development of more sophisticated and advanced AI systems.
By 2124, Artificial General Intelligence (AGI) is expected to be ubiquitous. With AGI potentially possessing extraordinary capabilities and possibilities, its societal impact could surpass even that of the discovery of electricity.
We can only anticipate that this impact will predominantly be positive.
Virtual Reality
Virtual Reality (VR) technology has already made significant strides in the entertainment industry. However, in the future, VR will find applications across various fields, including education, healthcare, and military training. VR technology will offer users a more immersive experience, enabling them to interact with virtual environments as if they were tangible.
Nevertheless, the widespread adoption of virtual reality will pose significant societal challenges. We are already witnessing individuals walking around with Apple Vision Pro glasses on their heads, and this trend is expected to increase. As more people embrace VR technology, there is a risk of disconnection from reality in various forms.
Read also: What Will Happen To Earth In 2025?
People Losing Connection With Real World
The ascent of social media and virtual communication has already resulted in a reduction in face-to-face interactions. Looking ahead, people will increasingly rely on technology for their daily needs, exacerbating the detachment from reality.
This trend will impact romantic relationships and population projections as well. We’re already witnessing a decline in intimate connections between individuals, with approximately 60% of young men in the USA being single. This downward trajectory is expected to persist.
With the progression of virtual reality technology, individuals are likely to spend more and more time immersed in virtual environments. Around 20% of the population may never leave their homes, perpetually tethered to their devices and living in a virtual realm.
Brains Wired to Computers
Linking the human brain to computers may seem like something out of science fiction, but it is already becoming a reality. Brain-computer interfaces (BCIs) are under development to enable individuals to control machines using their thoughts. In the future, BCIs will have applications in treating neurological disorders and augmenting human abilities.
However, a potential concern arises regarding the latter aspect – the enhancement of human abilities. A century from now, BCIs could be highly advanced, potentially transforming some individuals into nearly superhuman beings.
Consider a scenario where a person equipped with an ultra-advanced BCI can rapidly absorb extensive knowledge of physics within a matter of days or even hours. Moreover, BCIs could greatly enhance physical capabilities, leading to the creation of individuals with extraordinary abilities.
This advancement in BCIs may result in unfair advantages, particularly benefiting wealthy individuals with access to such technology.
Quantum Computing
Quantum computing can address complex problems that traditional computers cannot solve. In the future, quantum computers will be pivotal in advancing AI systems, developing more efficient energy sources, and enhancing cybersecurity.
It is anticipated that quantum computing will become mainstream within the next 100 years, marking a paradigm shift in computing.
Comparing standard computing to quantum computing reveals the revolutionary nature of this next era of computing. Compared to quantum computers, standard computers will resemble the basic calculators of the 1980s when juxtaposed with today’s smartphones.
Aspect Quantum Computing Standard Computing
Basic Unit of Data Qubit (Quantum Bit) can exist in superposition Bit (Binary Digit), represents 0 or 1
Information Encoding Encoded using quantum states (superposition, entanglement) Encoded using binary states (0 or 1)
Processing Method Utilizes quantum phenomena (superposition, entanglement) to perform operations Follows classical logical operations.
Speed Comparison Quantum computers have the potential to be exponentially faster than classical computers for certain problems, potentially achieving speed-ups of hundreds or even thousands of times. Classical computers operate at speeds limited by the speed of electrons and logical operations, typically achieving linear improvements with hardware advancements.
Memory Quantum states are fragile and susceptible to decoherence, requiring error correction techniques. Memory is stable and can retain information reliably over time.
Parallelism allows for parallel processing of multiple states simultaneously due to superposition, but it is limited to parallel processing with multiple cores or distributed systems.
Algorithms Unique quantum algorithms are designed to leverage quantum properties for specific tasks. Algorithms based on classical logic and mathematical operations
Programming Model Requires specialized programming languages and frameworks (e.g., Qiskit, Cirq) Utilizes conventional programming languages (e.g., Python, C++)
Current Development: Still in the early stages of development, with ongoing research and experimentation. Well-established technology with continuous advancements and optimizations
Practical Applications: Quantum cryptography, optimization problems, drug discovery, materials science, General-purpose computing, software development, data analysis, etc.
New Findings in Physics
In the past century, physics has taken significant strides in comprehending the universe’s fundamental laws. However, over the next 100 years, the field is poised to undergo even more revolutionary transformations.
As mentioned, one of the most captivating areas of exploration is quantum computing. Scientists are delving into the potential of utilizing quantum mechanics to construct computers capable of solving problems exponentially faster than classical computers.
Another focal point is the investigation of dark matter and dark energy. Despite constituting the majority of the universe, these substances remain enigmatic. Researchers are leveraging advanced telescopes and particle detectors to unravel these elusive entities’ mysteries.
Moreover, the attainment of fusion power is highly probable within the next century. This milestone would usher in a profound societal transformation for the better.
Fusion power, akin to the processes occurring in the sun, generates energy by fusing atoms without emitting pollutants like coal or oil. Harnessing hydrogen from water and lithium, which is abundant, fusion power promises to provide clean and virtually limitless energy for the future.
Lastly, the prospect of uncovering new particles exists beyond the Standard Model of particle physics. The Large Hadron Collider, the world’s largest and most potent particle accelerator, is presently undergoing upgrades to enhance its energy capabilities, thereby enabling the detection of novel particles.
Different Jobs in 100 Years?
Technology never stops evolving, and the job market has to change as it advances. New types of jobs will be created that we can’t even dream up yet, while some of the jobs we have today will sadly become a thing of the past.
Let me give you just a few examples of what kinds of wild and crazy jobs people might have in 100 years from now:
Virtual Reality Experience Designer
As virtual reality technology advances, there will be an increasing demand for professionals skilled in designing immersive experiences for VR users. These designers will be responsible for creating a wide range of content, from video games to virtual reality training simulations tailored for various industries.
Climate Change Reversal Specialist
Climate change reversal specialists will focus on devising and executing strategies aimed at curbing carbon emissions, restoring ecosystems, and alleviating the impacts of climate change.
Space Tourism Guide
As space travel becomes increasingly accessible to the general public, there will be a rising demand for professionals capable of guiding tourists through space travel experiences. These space tourism guides will ensure their client’s safety and comfort while delivering educational and entertaining experiences throughout their journey.
Journalism, Mass Media, and Social Networks
Traditional journalism is transforming, with many large media corporations viewed as controlled entities that disseminate propaganda. While exceptions exist to this trend, trust in major media outlets is dwindling, and genuine investigative journalism is becoming scarce within these organizations. Independent journalists increasingly choose to publish news through their platforms rather than relying on mainstream channels.
The viewership of mainstream news is declining, predominantly among younger generations, signaling a shift away from traditional media consumption habits. In a century, major media houses may collapse, giving way to individual journalists and podcasts as primary sources of news dissemination.
Regarding social networks, while some forms will likely persist for a hundred years, many of today’s platforms may become obsolete. The landscape of social media evolves every few years, with younger generations adopting new models. In the future, a social network may emerge that represents the virtual world entirely, and regardless of its form, people may become increasingly addicted to these platforms.
Three Global Languages
In the coming century, there will be a noticeable shift in the prominence of global languages. English, Mandarin, and Spanish are poised to become the dominant languages worldwide, being the most widely spoken and understood.
English has long held sway in the global business arena and is the official language in 67 countries, with over 1.5 billion speakers worldwide.
Mandarin boasts over 1 billion speakers globally, with China’s rising economic and political influence solidifying its importance on the world stage. Already the second most used language on the internet, Mandarin is expected to grow significantly, possibly surpassing English soon.
With around 500 million speakers, Spanish ranks as the third most spoken language globally. It holds official status in 21 countries, particularly across Latin America. Additionally, Spanish is the second most studied language worldwide after English. As Latin America emerges as a key player in the global economy, Spanish is expected to gain further importance.
In summary, while there may still be numerous languages spoken in the next 100 years, the future holds a likelihood of decreased linguistic diversity, with only a handful of languages prevailing. Looking further ahead, it’s plausible that English, Mandarin, Spanish, and Hindi will cover a significant portion, up to 90%, of the global population.
Food in 100 Years
Synthetic Foods
As the worldwide population continues to grow, there’s a growing demand for meals. Scientists are exploring alternative meal manufacturing methods consisting of artificial ingredients to cope with this demand. These ingredients are created in a laboratory setting using diverse substances and strategies.
Synthetic ingredients offer several advantages over traditional agriculture. They may be produced in large quantities and with regular quality, and they can be custom-designed to satisfy particular dietary requirements, such as low-fat or low-sugar diets. Moreover, artificial meals are less liable to contamination by dangerous bacteria or pathogens.
However, in spite of these benefits, artificial meals also pose demanding situations. One foremost situation is their consumption’s capability for long-term fitness results, as their protection and nutritional fee require similar studies and validation.
Furthermore, the widespread adoption of lab-grown food ought to have significant implications for traditional farmers worldwide. This issue was underscored by Italy’s decision to prohibit lab-grown meat in 2023, reflecting broader apprehensions about the impact of synthetic foods on present agricultural practices and livelihoods.
Sports in 100 Years?
Sports have always played a vital role in human society, and over the last century, they have undergone significant evolution. With the continuous advancement of technology and changes in the socioeconomic landscape, the future of sports is difficult to predict precisely. However, certain trends may influence their trajectory.
One major transformation expected in sports is the increased integration of technology. Already, wearable devices and virtual reality have been utilized to enhance athletes’ performance and provide immersive experiences for spectators.
It’s plausible that even more sophisticated technologies will be incorporated into sports, including AI-powered coaching and officiating systems. Furthermore, there’s speculation that entirely new sports disciplines may emerge specifically designed for robotic participants. Picture a future where robots compete in football matches, track and field events, or novel sports invented exclusively for them. Such advancements could revolutionize the sports landscape and redefine the nature of competition and entertainment in the sporting world.
Ultra Realistic Games in 100 Years?
In recent decades, video games have undergone remarkable advancements, evolving from the rudimentary graphics of the 1980s to the stunningly lifelike visuals of today. Yet, what lies ahead for video games in the next century?
The future of video games undoubtedly promises even greater immersion, featuring ultra-realistic graphics and physics engines that replicate the intricacies of the real world. Moreover, games will become significantly more interactive and responsive, dynamically adjusting to the player’s actions.
Thanks to progress in artificial intelligence and machine learning, games can adapt to each player’s behavior, offering personalized and unique experiences. However, alongside these exciting prospects come concerns regarding the potential drawbacks of such immersive gaming experiences.
As games approach unprecedented levels of realism, there’s a risk that players may struggle to discern between the virtual realm and reality, potentially leading to issues like addiction and psychological challenges.
Speculation arises regarding whether these advancements will usher in an intermediate phase between the virtual world depicted in fiction like “The Matrix” and our tangible reality. While the precise trajectory remains uncertain, current trends suggest moving closer to such a reality.
Environmental Changes
Climate Change Effects
The world is poised to confront profound environmental transformations driven by climate change in the coming century. These shifts, including rising sea levels, heightened frequency and intensity of extreme weather phenomena, and alterations in temperature patterns, will profoundly influence human societies and their interactions with the natural world.
The melting of polar ice caps is expected to result in rising sea levels, posing a threat to coastal cities and necessitating the relocation of millions of inhabitants.
Moreover, shifts in temperature patterns will disrupt agricultural practices and food production systems, thereby impacting global food security.
Biodiversity
Biodiversity, encompassing the life forms on Earth, from plants and animals to microorganisms, is a cornerstone of our planet’s ecological health. However, the ongoing biodiversity loss remains a critical environmental issue, projected to persist in the next century.
Factors such as climate change, habitat destruction, and pollution all contribute to this loss. The extinction of species disrupts ecosystems and undermines the essential services they provide, including clean water and air.
Resource Management
As the global population expands, the demand for essential resources such as water, energy, and food will escalate. Effectively managing these resources will be paramount in ensuring sustainable development over the next century, especially considering the impacts of climate change on resource availability.
Renewable energy sources like solar and wind power will assume greater importance, while strategies for water management, including desalination and conservation, will become imperative.
Desalination is anticipated to be a primary solution for addressing water scarcity issues. However, widespread adoption faces hurdles. Desalination processes require substantial energy inputs, rendering them costly compared to traditional freshwater sources such as rivers or groundwater.
The considerable energy demands of desalination contribute to environmental concerns, including greenhouse gas emissions and habitat disruption. Moreover, desalination plants can adversely affect marine ecosystems through the intake and discharge of seawater, impacting marine life and coastal habitats.
Furthermore, the disposal of salt-water byproducts generated during desalination presents challenges and environmental risks if not managed adequately.
However, advancements in technology and innovation are expected to drive down the cost of desalination and enhance its accessibility by the year 2100 or possibly sooner.
Socioeconomic Dynamics
Economic Shifts
Over the next 100 years, the global economy will undergo significant transformations driven by automation and artificial intelligence advancements. These developments will render many traditional jobs obsolete, resulting in a substantial reduction in the workforce.
Nevertheless, this shift will also give rise to new employment opportunities in emerging fields such as robotics, data analysis, and renewable energy. The growing demand for skilled professionals in these sectors will drive innovation and economic growth.
Moreover, there will be a continued transition towards a service-based economy, with a heightened focus on delivering personalized consumer experiences. This trend will underscore the importance of creativity, interpersonal skills, and customer-centric approaches in various industries.
Overall, while the economic landscape may evolve dramatically over the next century, opportunities for innovation and adaptation will abound, paving the way for new avenues of prosperity and development.
Global Currency
In the coming decades, the world is expected to become cashless, with digital currencies becoming increasingly prevalent. A global currency may emerge over the next 100 years, potentially replacing traditional currencies. This international currency would likely be entirely digital and based on blockchain technology.
The trajectory of the next few years will significantly influence the future of currency systems. It is anticipated that more countries will issue their digital coins and currencies, leading to a proliferation of digital payment options. Around 30 years from now, these digital currencies may begin to merge, resulting in several global digital currencies.
In 100 years, the world may converge to have only one to three dominant global currencies. While digital money and global currencies offer certain advantages, there are also potential drawbacks.
For instance, implementing credit scoring systems akin to China’s existing social credit system could become more widespread globally. Such systems might result in increased surveillance and control over citizens, potentially leading to a semi-dystopian society where individuals are constantly monitored and subject to strict regulations.
Global Governance
Global governance may become increasingly plausible as the world continues to become more interconnected. Over the next 100 years, there could be a trend towards establishing a more centralized global government, potentially with the United Nations assuming a greater role in international affairs.
Such a development might foster increased cooperation and stability on a global scale. However, it could also raise concerns regarding sovereignty and control, as nations may be required to cede some degree of autonomy to a centralized authority.
According to our predictions, this shift towards global governance could take shape as early as 2050. By 2100 or even 2124, the likelihood of such a development may become even more pronounced as global challenges necessitate more coordinated and unified approaches to address them.
Health and Medicine
Disease Management
In the next 100 years, disease management will undergo significant advancements, leading to much greater efficiency. Thanks to artificial intelligence and machine learning, doctors and medical professionals will possess enhanced tools for diagnosing and treating diseases with greater accuracy and speed.
These advancements will enable medical professionals to access real-time data, allowing them to make well-informed decisions regarding patient care. By leveraging cutting-edge technology, healthcare practitioners will be better equipped to address health concerns swiftly and effectively.
No More Diseases?
Believe it or not, wiping out certain diseases isn’t as far-fetched as it might seem. Thanks to gene editing, scientists are getting closer to eliminating genetic disorders and diseases triggered by mutations. Moreover, progress in nanotechnology could pave the way for minuscule robots that can seek out and obliterate cancer cells. These innovations offer hope for greatly lessening the impact of illness and enhancing general well-being.
Lifespan of People?
As medicine, technology, and healthcare progress, we can expect a boost in life expectancy. Individuals will gain access to personalized medicine, empowering doctors to customize treatments based on each person’s unique genetic composition. Moreover, regenerative medicine is on the brink of becoming a tangible possibility, offering the potential to regenerate impaired organs and tissues. It wouldn’t be astonishing if the average lifespan for those born today extends to 100 years or beyond.
Healthcare Accessibility & 3D Printing
Over the next century, healthcare will become increasingly accessible to individuals worldwide. Through telemedicine, doctors can diagnose and treat patients from a distance, removing individuals’ need to undertake lengthy journeys to visit a doctor in person. Furthermore, progress in 3D printing will facilitate the creation of cost-effective medical equipment and prosthetics, making them more attainable for those in need.
Education and Knowledge Distribution
In the coming century, how people acquire knowledge will be completely transformed. Traditional classrooms will give way to virtual and augmented reality learning environments, enabling students to engage in learning from any corner of the globe. These immersive technologies will immerse students in simulations of real-life situations, making the learning process more captivating and interactive.
Moreover, personalized learning will become increasingly common as adaptive learning algorithms customize education to suit individual requirements. Additionally, integrating brain-computer interfaces allows individuals to learn at a significantly accelerated pace. Remember Neo from the movie Matrix, who mastered all martial arts skills in one afternoon? While not to that extreme, people will likely experience much faster learning abilities.
Infrastructure and Urban Development
Smart Cities
Over the next century, cities will radically transform, becoming smarter and more interconnected than ever. Smart cities will harness advanced technology to enhance the well-being of their residents. They’ll boast integrated systems capable of monitoring and regulating everything from traffic patterns to energy usage. This holistic approach will minimize waste, enhance productivity, and promote sustainability. Singapore is a prime example of a smart city, having implemented various initiatives such as smart transportation, energy grids, and water management systems. These efforts have effectively alleviated traffic congestion, boosted energy efficiency, and preserved water resources.
Underwater Cities
As sea levels continue to rise and climate change poses a growing threat, underwater cities may emerge as necessary. These cities will be constructed beneath the ocean’s surface and operate independently, equipped with energy, food, and water supplies. Furthermore, they will be engineered to withstand severe weather events and natural calamities. An example of such a venture is the Ocean Spiral project in Japan, which endeavors to establish an autonomous underwater city capable of accommodating up to 5,000 inhabitants.
Transportation Evolution
In the next 100 years, transportation is poised for a significant evolution. Electric and autonomous vehicles will dominate the roads, marking a shift towards more sustainable forms of travel. Additionally, the adoption of Hyperloop technology will increase, allowing individuals to journey at extraordinary speeds.
Will we have flying cars?
It isn’t very certain.
The prospect of flying cars within the next 100 years is highly uncertain. They confront significant challenges, such as safety concerns and air traffic management, to prevent collisions.
Moreover, it’s not merely a matter of engineering – governments would need to establish regulatory frameworks for flying cars, and individuals would need to feel confident in their safety.
While we may witness intriguing prototypes or experimental models, the widespread adoption of flying cars seems improbable in the foreseeable future. Certainly, affluent individuals may possess them for exclusive travel but most likely remain confined to science fiction.
Sustainable Living
In the next 100 years, sustainable living will take center stage. Cities will be meticulously planned to prioritize eco-friendliness, featuring abundant green spaces, renewable energy outlets, and sustainable transportation networks.
Moreover, there will be a notable transition towards sustainable food cultivation, with practices such as vertical farming and hydroponics gaining prevalence.
Copenhagen is a prime example of a city at the forefront of sustainable living. They’ve spearheaded various initiatives, such as bike-sharing programs, wind turbine installations, and the implementation of green roof systems.
There are many smart cities already in plans or some in construction:
- The Line (Saudi Arabia): Saudi Arabia has unveiled plans for The Line, a 170-kilometer-long city towering 500 meters above ground, in the Neom mega-project. Despite its vast scale and anticipated population of nine million, The Line will be a mere 200 meters wide, aiming to connect its endpoints in just 20 minutes via an efficient transport system. Focusing on preserving nature and enhancing human livability, it offers a departure from conventional circular urban layouts. The ambitious Line project is slated for completion by 2030.
- Telosa (USA): Danish architect Bjarke Ingels and his firm BIG envision Telosa, a city designed for five million inhabitants, to be constructed from scratch in the American desert. Spearheaded by billionaire entrepreneur Marc Lore, the goal is to establish it as “the most sustainable city in the world.” The city’s land will be owned by a community endowment, prioritizing the well-being of its residents. While no specific completion date has been announced, Lore aims to welcome the first inhabitants within the next decade.
- BiodiverCity (Malaysia): BiodiverCity, also conceived by BIG, is a 1,821-hectare development comprising three artificial islands off the coast of Malaysia’s Penang Island. Resembling lily pads, each island is expected to accommodate 15,000 to 18,000 residents and will be interconnected by an autonomous transport network. Emphasizing sustainability, the buildings will predominantly utilize bamboo, timber, and recycled materials, with ecological buffers promoting biodiversity. Though the completion timeline for BiodiverCity hasn’t been officially disclosed, it forms part of Malaysia’s Penang South Islands development, slated for completion by 2030.
- New Administrative Capital (Egypt): Egypt is constructing a new capital city to alleviate congestion in the rapidly expanding Cairo. Spanning 700 square kilometers, the New Administrative Capital aims to house up to seven million people. Architecture firm SOM has devised the master plan for this privately funded project, which features one of the world’s largest urban parks. Construction is underway, with some government offices already operational. Full completion of the New Administrative Capital is projected by 2025.
- Maldives Floating City (Maldives): The Maldives Floating City represents a pioneering concept that tackles the challenges posed by rising sea levels. While still in the conceptual phase, the idea involves creating a self-sufficient floating city adaptable to changing environmental conditions. It offers an intriguing glimpse into a future where cities coexist harmoniously with nature. As a highly innovative concept, the timeline for the Maldives Floating City remains uncertain.
Final Thoughts
Looking back through history, each new century has generally surpassed the last, save for a few setbacks due to various deadly diseases. Thus, we hope that the 22nd century will exceed the advancements of the 21st and 20th, even though the 21st century is still in its infancy.
In the 20th century, we have witnessed an explosion of inventions, including groundbreaking developments such as the internet, television, airplanes, nuclear energy, computers, and antibiotics, to name just a few. In contrast, the 21st century is focused on advancing discoveries made in the 20th century, albeit we are only scratching the surface.
As for what the 22nd century holds in terms of discoveries and inventions, it remains uncertain. However, we anticipate significant progress in burgeoning technologies such as genetic engineering, nanotechnology, nuclear fusion, robotics, and the continual evolution of the digital landscape. As mentioned, substantial changes will occur in medicine, education, artificial intelligence, virtual reality, transportation, and beyond.
Moreover, significant shifts will occur in daily life.
The job landscape in the 22nd century will undergo a profound transformation. The potential impact of artificial general intelligence remains uncertain. While many may lose their jobs, it’s unsure if this will result in a surplus of new roles due to automation. Historically, fears surrounding innovations such as electricity, cars, and the internet centered on concerns of societal collapse and widespread unemployment. Yet, these fears did not materialize. Instead, people adapted and underwent retraining.
However, the current situation may differ. We could be on the cusp of something monumental, the full ramifications of which elude our comprehension. This unknown territory may come with substantial costs, whether tangible or abstract.