{GS1 – IS – Issues} Generation Beta and their issues
Context (IE | IE | ET):Generation Beta, the cohort born between2025 and2039, represents the next generational shift, following Generation Z and Alpha.
Characteristics of Generation Beta
Born Between 2025 and 2039: The first cohort to grow up with micro-computing technologies
Tech-Savvy: More adept than previous generations due to advanced exposure to emerging technologies like AI, virtual reality and smart systems.
Innovative and Adaptable: Expected to embrace cutting-edge developments such as quantum computing and the metaverse.
Highly Connected: Through digital platforms, fostering inclusivity & empathy.
Artificial Intelligence (AI): Machines performing tasks requiring human-like intelligence, such as language understanding, pattern recognition, and decision-making.
Metaverse: A virtual reality space where users can interact in a computer-generated environment, often used for entertainment, education and socialising.
Technology’s Role in Generation Beta
Instant Gratification: Constant exposure to AI and Virtual Reality could foster instant gratification.
Education Transformation: Tech-driven personalised learning using AI tutors, VR classrooms, and digital tools will allow for tailored and efficient learning experiences.
Higher Adaptability: Generation Beta’s digital fluency will make them capable of rapid innovation and adaptation.
Workplace Shifts: Careers will focus on creativity and emotional intelligence as automation grows.
Cultural and Social Impact
Breaking Conventional Norms: Growing up in a connected world, they may promote inclusivity, empathy, eco-conscious lifestyles and global understanding.
Redefining Relationships: Technology-driven interactions may redefine personal relationships and workplace dynamics.
Challenges to Tradition:Fluid identities and cultural shifts might create intergenerational challenges.
Challenges Faced by Generation Beta
Mental Health Risks: Prolonged screen exposure causes anxiety, social isolation & poor self-esteem.
Attention issues: Increased digital immersion might challenge their long-term problem-solving ability.
Privacy and Ethics: Integrating AI and VR raises concerns about privacy, safety & ethical boundaries.
Sustainability Concerns: Climate change awareness could foster eco-consciousness but may also create existential anxiety.
{GS2 – IR – Diplomacy} Diplomatic Challenges and Opportunities in 2025
Context (IE): As 2025 begins, India faces a rapidly evolving global landscape shaped by geopolitical uncertainties and regional shifts.
Bangladesh Relations: Rising religious violence and demands to extradite Sheikh Hasina complicate bilateral ties.
Pakistan and SAARC Revival: The revival of SAARC remains unlikely amid persistent cross-border tensions owing to India’s indifference to Pakistan and limited regional engagement.
Sri Lanka and Maldives: Sri Lanka’s new presidency leaves Tamil aspirations uncertain, while Maldives’ anti-India rhetoric demands continuous diplomatic efforts.
Global Partnerships and Engagements
France and Europe: Following French President Macron’s Republic Day visit, defence and maritime cooperation enhanced; bilateral reliability was reinforced despite challenges in broader EU engagements.
Indo-Pacific Focus: India will host the Quad Summit to advance stability & security in the Indo-Pacific.
Africa Engagement: Renewed push for Africa relations, emphasising economic & political collaboration.
Strategic Diplomatic Opportunities for 2025
Leverage the Trump administration’s pro-India stance to strengthen U.S.-India ties through enhanced strategic and technological partnerships, especially with Trump’s expected visit to the Quad Summit.
Improved border ties with China with potential troop drawdowns along the LAC and Bilateral meetings at SCO and BRICS summits. Pursue phased border disengagement and balanced trade policies.
Regional Stability: Address political transitions in Bangladesh, Sri Lanka, and Nepal; counter anti-India sentiments in Maldives and Pakistan.
Hosting the India-Africa summit and PM Modi’s visit to South Africa emphasise Africa’s growing strategic importance.
Strategic Engagement in Global Conflicts: Maintain neutrality in Russia-Ukraine, offer mediation, strengthen bilateral ties with West Asian nations by balancing Iran-U.S.-Israel dynamics, and reinforce India’s commitment to a rules-based order while managing challenges like IMEC.
Expand Global Partnerships: Finalise trade agreements with the EU, U.K., and Australia while enhancing economic, technology, and climate collaborations, including with EFTA.
{GS2 – IR – India-US} H-1B Visa Program
Context (IE | ET): The H-1B visa program allows U.S. employers to hire skilled foreign professionals and has become a point of contention within U.S. politics.
Overview of H-1B Visa Program
The H-1B visa program allows U.S. employers to hire skilled foreign nationals for jobs requiring specialised knowledge and aminimum bachelor’s degree.
Launched in 1990, it aims to help U.S. employers fill skill gaps by hiring foreign workers temporarily.
The maximum duration for an H-1B visa is six years. A cap of 65,000 new visas is set annually, with an additional 20,000 visas for individuals with advanced degrees from U.S. institutions.
Petitions for continuing employment or roles in higher education/nonprofits are exempt from the cap.
Indians and the H-1B Program
Indians are the largest beneficiaries, making up over 70%of H-1B petitions since 2015.
This dominance has triggered a backlash from certain right-wing factions, who argue that the program is misused by tech companies to employ foreign workers at lower wages than U.S. nationals.
Many H-1B visa holders work in tech, earning a significant portion under $100,000 annually, which is lower than the median salary for U.S. IT professionals.
Arguments Opposing H-1B Program
Exploitation of Workers: Critics argue that some companies exploit the program to hire cheaper foreign labour, displacing U.S. workers.
Wage Suppression: There is concern that the program drives down wages, as companies prefer to hire H-1B workers who accept lower pay.
Visa Backlog: The lengthy visa processing and backlog create job insecurity for many applicants, especially those seeking permanent residency (Green Card).
Dependence on Employers: H-1B holders’ dependence on employers for visa renewal limits their job mobility, leading to exploitation.
Arguments in Favour of H-1B Program
Filling Skill Gaps: Particularly in STEM fields where U.S. universities cannot produce enough graduates.
Global Competition: U.S. faces stiff competition from China & India, which have large pools of STEM graduates, underscoring the need for skilled foreign labour to maintain technological leadership.
Economic Growth: H-1B visa holders contribute significantly to the U.S. economy, especially in high-demand sectors like tech, healthcare and engineering.
Strategic Importance of Skilled Immigration:Appointment of Sriram Krishnan, an Indian-American tech leader, as Trump’s AI adviser reinforces the message that skilled foreign workers are crucial for U.S. innovation and economic competitiveness.
Way Forward
Reform Suggestions: Increasing the minimum salary for H-1B visa holders and making the program more expensive to encourage U.S. hiring.
Addressing Wage Issues: Raising the minimum salary threshold for H-1B workers would ensure better pay and reduce concerns about wage suppression.
Streamlining the Process: Reducing visa processing times and resolving the backlog would provide more security and stability to H-1B holders.
Revisiting Cap and Lottery System: Proposals to adjust the cap and reconsider the lottery-based visa allocation could make the system fairer and more efficient.
{GS2 – IR – Issues} Geopolitics of Platform-Publisher Tussles
Context (TH): India’s External Affairs Minister’s news inaccessibility on Facebook in Canada underscores evolving platform-publisher dynamics.
How does it work?
Platforms like Facebook and Google enable publishers to reach vast audiences.
Publishers provide content that keeps users engaged, creating a symbiotic relationship.
Thus, there is a pressing need for equitable revenue distribution between platforms and publishers.
Issues
Global Variability: Different countries have varying approaches to regulating platform-publisher relationships, leading to inconsistencies.
Platform Resistance: Meta’s withdrawal of news offerings in Canada illustrates platforms’ pushback against regulatory measures.
Opaque mechanism: Disparities in revenue sharing since platforms control audience metrics.
Selective Compliance: Platforms blocking specific news sites raise concerns about arbitrary decisions.
Disadvantages of Existing Frameworks
Legitimising Power Imbalances: Critics argue that regulations may favour larger news organisations over smaller local outlets.
Potential for Censorship: Platforms may exploit loopholes to restrict access to certain content, impacting democratic discourse.
Benefits of Fair Compensation
Local Journalism: Ensures financial viability for local news outlets, fostering diverse media landscapes.
Financial Protection for Publishers: Laws like Canada’s Online News Act (ONA) aim to secure fair compensation for news outlets.
Encouragement of Negotiation: Frameworks facilitate mediation and arbitration, promoting dialogue between platforms and publishers.
Strengthening Democratic Processes: Access to varied news sources enhances public discourse and informed citizenship.
Way Forward
Enhanced Regulatory Oversight: Countries should establish clear definitions for news outlets to prevent arbitrary platform restrictions.
International Cooperation: Nations must collaborate to create uniform standards for platform-publisher relations to mitigate geopolitical tensions.
Monitoring and Evaluation: Ongoing assessments of implemented laws to ensure they meet the intended goals without unintended consequences.
Australia’s Bargaining Code: Established a framework for fair negotiation, though criticised for favouring large entities.
India’s Competition Commission Inquiry: This inquiry investigated platform conduct and highlighted the need for proactive measures in emerging markets.
Context (IE | DST): Aandhi, a village near Jaipur, Rajasthan, is pioneering a zero-waste model with Vermifiltration technology to treat wastewater and support sustainable waste management.
Vermifiltration: A green technology & a wastewater filtration process using epigeic earthworms andmicroorganisms to filter & break down wastewater pollutants in an active vermifilter zone.
How Does Vermifiltration Work?
Multi-stage Treatment: Combines primary (sand and silt removal), secondary (biological degradation), and tertiary (pathogen removal) filtration processes.
Integration with Other Systems: When combined with solar energy systems, vermifiltration offers an energy-efficient and eco-friendly solution to wastewater management.
Advantages of Vermifiltration Technology
Eco-Friendly: Utilizes natural processes (action of earthworms and microorganisms), reducing the need for chemical treatments.
Energy Efficient:Solar energy integration makes it a low-energy process.
Cost-Effective: Suitable for rural areas where conventional wastewater treatment plants may be expensive or impractical.
Significance of Vermifiltration
Wastewater Pollution Control: Effectively treats greywater and sewage, reducing pollutants and improving local environmental and ecosystem health.
Ensures Progression of Sustainability Goals: Offers a sustainable solution for wastewater management while promoting the local economy through resource recovery and recycling.
Sustainable Water Management and Sanitation (SDG 6): Promotes wastewater treatment & reuse for agricultural irrigation, promoting water conservation in water-scarce areas.
Sustainable Cities and Communities (SDG11): Supports zero-waste models by integrating green technologies in rural and urban waste management.
Climate Action (SDG 13): Zero-waste models reduce greenhouse gas emissions through solar-powered systems, contributing to eco-friendly solutions.
Life on Land (SDG 15): Enhances biodiversity by supporting natural wetland processes and vermicomposting practices.
Challenges
Implementation Cost: Initial installation of the system may require significant investment, though long-term savings are considerable.
Scalability: Scaling the technology for larger populations or in areas with high wastewater output could be challenging.
Way Forward
Integration with Other Green Tech: Combine vermifiltration with other systems (eg- organic waste bio-methanation plants & constructed wetlands for a holistic wastewater management approach.
Community Engagement: Educate and involve villagers by providing them with training and tools to ensure proper maintenance and long-term system sustainability.
Replication Potential: The success of the Aandhi model can be replicated in other rural areas to promote environmental conservation and sustainable practices nationwide.
{GS3 – Envi – Pollutants} Harmful Chemicals in Black Plastic Products
Context (IE): Recent research shows that recycled black plastics in cooking utensils and takeaway containers contain harmful chemicals, endangering human health and the environment.
Hazards of Recycled Black Plastics
Use of Flame Retardants: Black plastics, often recycled from electronics, contain flame retardants like DecaBDE(Decabromodiphenyl Ether) to prevent fires.
Chemical Contamination: Recycling electronics can leave harmful additives in household items, including kitchen utensils (spatulas, peelers, spoons), takeaway containers (sushi trays), and children’s toys (plastic cars, medallions).
Limited Regulation: Inadequate checks on recycled plastics lead to toxic substances in everyday objects.
Health Risks of Black Plastics
Carcinogenic: Flame retardants are linked to carcinogenic effects and hormonal disruptions.
Nerve and Reproductive Damage: Long-term exposure can harm the nervous & reproductive systems.
Thyroid Disruption: Chemicals like 2,4,6-Tribromophenol are associated with thyroid dysfunction.
Environmental Leaching: Toxic substances migrate from items like utensils to food & from toys to saliva.
Issues with Recycling Programs
Indiscriminate Mixing: Recycling processes mix various plastics, leading to contamination.
Lack of Transparency: Limited public knowledge about the chemicals in recycled products.
Small Retailers’ Products: Higher contamination in items sold at niche or ethnic-specific retailers.
Way Forward
Stricter Regulations: Implement bans on toxic flame retardants & harmful chemicals in plastic recycling.
Improved Product Design: Shift to safer materials and enforce stricter checks on recycled products.
Systemic Changes: Governance reforms like global plastic treaty, reuse systems & chemical restrictions.
{Prelims – Festivals} New Year and Calendars in India
Context (IE | TH):New Year’s Day (January 1) is the first day of the Gregorian calendar and is now a secular holiday in many parts of the world.
History of Calendar
Pope Gregory XIII introduced the Gregorian calendar in 1582. It is based on the solar dating system and reformed theJulian calendar, established by Roman emperor Julius Caesar in 45 BC.
The early Roman calendar was created by Romulus, the founder of Rome, in the 8th century BCE. Numa Pompilius added the months of Januarius and Februarius, making it a 12-month year.
Omar Khayyam, an Iranian poet and philosopher, was also an astrologer & devised rules for leap year.
Arrival of the Gregorian Calendar in India
The Gregorian Calendar was introduced to India in 1752, the same year it was adopted in Great Britain.
Indian calendars, called Panchangas, continued to be widely used even after the introduction of the Gregorian Calendar.
By the time of India’s independence, the Gregorian Calendar was used by the government and for many public purposes, but different regional calendars continued to be used.
Countries like India, Pakistan, Myanmar, and Israel use traditional calendars alongside the Gregorian one.
Traditional Calendars in India
Vikram Samvat and Saka Samvat are two main calendars in India. Vikram Samvat’s zero point is 57 BC, & Saka Samvat’s is 78 AD. They are used to calculate dates of all Hindu festivals, such as Diwali & Holi.
The Saka Era is believed to have been founded by Kushan king Kanishka. Under the Saka era national calendar, the New Year is on March 22 for an ordinary year and March 23 for a leap year. Year 0 for this calendar was the vernal equinox (when day and night are equal) in 78 CE.
Reforms of the Indian Calendar
In 1952, India decided to reform its calendar and sought assistance from the Council of Scientific and Industrial Research (CSIR).
The CSIR appointed a Calendar Reform Committee in November 1952, chaired by Prof. Meghnad Saha, with leading mathematicians and astrophysicists as members.
After three years of study, the committee proposed a unified Indian Calendar based on a scientific approach. The committee’s report was submitted to CSIR in 1955, and GOI accepted the recommendations.
The unified National Calendar is based on the Saka Era, with Chaitra as its first month and a normal year of 365 days. It was adopted on 22 March 1957, along with the Gregorian calendar, for the following official purposes:
Gazette of India.
News broadcast by All India Radio.
Calendars issued by the Government of India.
Government communications addressed to the public.
As per India’s National Calendar, March 22 (or March 21 in a leap year) is the first day of the year.
Calendar
Type
Origin
Started By
Current Significance
Vikram Samvat
Lunisolar
57 BCE
Named after King Vikramaditya, who is believed to have started it
Used in Nepal and some parts of India for celebrating festivals and traditional events
Saka Samvat
Solar
78 CE
Emperor Shalivahana
The official national calendar of India, used for official purposes and traditional practices in some regions
Gregorian Calendar
Solar
1582 CE
Pope Gregory XIII, to address inaccuracies in the Julian calendar
International standard calendar, used globally for civil and business purposes
Vikram Samvat was introduced in 57 B.C.; hence, if 57 is deducted from the year of Vikram Samvat, we get Christian year. e.g. V.S. 2054 – 57 = A.D. 1997.
The Saka Samvat or Era commenced in B.C.78 during Saka Kshatrap Nahpan’s time. By adding78 to the Saka year, we get the Christian year. e.g. Saka 1752 + 78 = A.D. 1830.
{Prelims – S&T – Space} Blue Origin’s New Glenn Rocket
Context (IE): The US Federal Aviation Administration (FAA) issued a commercial space launch license for Blue Origin’s New Glenn launch.
The New Glenn rocket is a heavy-lift launch vehicle named after John Glenn, the NASA astronaut who was the first American to circle the Earth in 1962.
It is designed to carry up to 45 metric tons to Low Earth Orbit (LEO) and 13 metric tons to Geostationary Transfer Orbit (GTO). It is a two-stage rocket with a first stage powered by seven BE-4 engines and a second stage powered by two BE-3U engines.
The BE-4 engines are powered by liquefied natural gas (LNG) and liquid oxygen, making them some of the most powerful and efficient engines ever built.
The first stage is designed to be reusable for up to 25 flights, which helps reduce the cost of access to space. It is also capable of landing on a drone ship in the sea. It can accommodate a variety of payloads & destinations, offering flexibility for different types of missions.
The rocket will support Amazon’s Project Kuiper, which aims to deliver high-speed, low-latency broadband service globally.
Blue Origin was founded in 2000 by Jeff Bezos, the founder of Amazon. Its motto is to make space travel more accessible and affordable for everyone.
{Prelims – Sci – Physics} Cubic Kilometre Neutrino Telescope (KM3NeT)
Context (IE): Scientists are deploying a Cubic Kilometre Neutrino Telescope (KM3NeT) under the Mediterranean Sea to detect high-energy neutrinos from space and the atmosphere, providing valuable information about cosmic phenomena.
These telescopes are similar to the IceCube Neutrino Observatory, which can detect high-energy neutrinos from deep space but is located under the frozen ice in the Antarctic rather than in the water.
The telescope will include 12,000 optical sensor modules mounted on 600 flexible vertical strings.
It uses Cherenkov radiation to detect neutrinos. When neutrinos interact with water molecules, they produce faint blue light, which the sensors can detect.
Reason Behind Building Underwater Neutrino Telescopes
High-energy neutrinos are very hard to find because they hardly ever interact with anything; only one might interact with a person’s body in a lifetime.
The IceCubetelescope, operational since 2011 and the first to detecthigh-energy neutrinos has only been able to spot a handful of these particles.
Detecting high-energy neutrinos requires a large volume of optically transparent material in an extremely dark place. Both frozen ice and deep-sea waters provide good conditions for detecting high-energy neutrinos, but underwater neutrino telescopes might be more efficient than IceCube.
Water scatters light less, which offers a more accurate idea of where detected neutrinos come from, but water also absorbs light more, resulting in less light to examine.
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