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Mosquitofish

Why in News?

Recently, several regions in Andhra Pradesh, Odisha, and Punjab have seen the release of mosquitofish into local water bodies as a strategy to tackle the rising mosquito population. However, a recent study has raised concerns about the negative consequences of this method, highlighting potential issues associated with this biological control approach.

Science and Technology - 1 | Current Affairs & Hindu Analysis: Daily, Weekly & Monthly - UPSC

What is the Mosquitofish Approach and its Related Consequences?

Background - Rise of Mosquito-borne Diseases:

  • In the past century, global climate changes and habitat alterations have led to an increase in mosquito-borne diseases, affecting more than 500 million individuals in over 150 countries.
  • In India, approximately 40 million people are afflicted by these diseases every year, presenting a longstanding public health challenge.

The Mosquitofish Approach:

  • Mosquitofish, indigenous to the freshwater regions of the southeastern United States, are recognized for their appetite for mosquito larvae.
  • These fish can consume up to 250 larvae daily, positioning them as a potential solution to mosquito overpopulation.
  • Two species, Gambusia affinis and Gambusia holbrooki, were initially deemed environmentally friendly and sustainable.
  • However, their introduction led to unintended consequences, spreading worldwide from the U.S. and causing ecological disruptions.

Introduction of Mosquitofish in India:

  • The introduction of mosquitofish in India dates back to 1928 during British rule, intended to control the rapid spread of mosquitoes.
  • Both governmental and private organizations in India have since collaborated to use this method to fight malaria.
  • Initially, the goal was to utilize the fish for larval control, but this strategy backfired, allowing them to become invasive alien species.

Negative Impacts of Mosquitofish:

Invasive Nature:

  • Mosquitofish exhibit remarkable adaptability and tolerance to various environmental conditions, contributing to their extensive spread and classification as highly invasive species.

Disruption of Native Fish Communities:

  • These fish are aggressive feeders, consuming not just mosquito larvae, but also the eggs of local fish species, which can threaten the existence of smaller, less competitive native fish.

Loss of Unique Species:

  • The introduction of mosquitofish poses a risk to endemic and ecologically significant fish species, potentially leading to decreased biodiversity and weakened ecosystem resilience.
  • Reports indicate a decline in Microhyla tadpoles (rice frogs) following the introduction of Gambusia in India.

Related Significant Steps

  • The World Health Organization ceased recommending Gambusia as a mosquito control agent in 1982.
  • In 2018, the National Biodiversity Authority of India classified G. affinis and G. holbrooki as invasive alien species.

What are the Major Challenges Related to Mosquito and Related Disease Control?

Challenges in Mosquito Control:

  • Complex Environment: The diverse climates, geographies, and socio-economic conditions across India contribute to varying mosquito breeding patterns.
  • Insecticide Resistance: Many mosquito species have developed resistance to commonly used insecticides and repellents, necessitating frequent updates and new alternatives.
  • Poor Sanitation: Urban and rural areas in India often have open drains, uncollected waste, and stagnant water sources that provide ideal breeding sites for mosquitoes.

Challenges in Disease Control:

  • Underreporting: Many cases of mosquito-borne diseases, particularly in rural areas, remain unreported or misdiagnosed, complicating data collection and targeted responses.
  • The limited availability of proper healthcare in remote areas also delays treatment, exacerbating health complications.
  • Vaccine Limitations: No effective vaccines are currently available for all mosquito-borne diseases, making prevention reliant primarily on vector control and personal protective measures.

Way Forward

Improved Sanitation and Infrastructure:

  • Enhancing waste collection and disposal systems can significantly reduce mosquito breeding grounds in urban settings.
  • Implementing proper drainage systems can help prevent stagnant water accumulation, a primary breeding source for mosquitoes.
  • Providing communities with clean water storage options can minimize reliance on open containers that attract mosquitoes.

Integrated Vector Management (IVM):

  • A comprehensive approach that combines various strategies, including biological control, insecticide use, and environmental management, is crucial to tackling mosquito-related challenges.
  • Accelerating the implementation of the National Vector Borne Disease Control Programme is essential.

Community Engagement and Education:

  • Raising public awareness and involving communities in mosquito control efforts through educational campaigns can enhance preventive measures and encourage active participation.

IMD: Celebrating 150 Years of Weather Monitoring

Why in news?

Recently, on January 15, the Indian Meteorological Department (IMD) marked its 150th anniversary. Established in 1875, IMD plays a crucial role in meteorological observations, weather forecasting, and seismology, significantly contributing to disaster management and agricultural support across India.

Science and Technology - 1 | Current Affairs & Hindu Analysis: Daily, Weekly & Monthly - UPSC

About IMD: Full Form, Objectives, and Origin:

  • IMD stands for Indian Meteorological Department.
  • It operates under the Ministry of Earth Sciences.
  • The primary goal of IMD is to conduct meteorological observations throughout India.
  • IMD is responsible for forecasting, naming, and distributing warnings regarding tropical cyclones in the Northern Indian Ocean.
  • It serves as one of six Regional Specialized Meteorological Centres recognized by the World Meteorological Organization.

Organization Structure:

  • The Director General of Meteorology leads IMD.
  • There are six Regional Meteorological Centres located in Chennai, Guwahati, Kolkata, Mumbai, Nagpur, and New Delhi, each managed by a Deputy Director General.

IMD: Origin and History:

  • 1875: Established with British meteorologist H.F. Blanford as Meteorological Reporter.
  • 1875-1890: Early years included the initiation of seismological measurements in 1877 with the first observatory in Alipore, Kolkata.
  • IMD joined the World Meteorological Organization to improve global weather and climate monitoring through international collaboration.
  • By 1886, the port warning system expanded from Kolkata to all Indian ports for maritime safety.
  • In 1890, IMD became the Rainfall Registration Authority, standardizing rain measurement methods.
  • The British East India Company established early meteorological observatories, with the first one in Calcutta in 1785.
  • After significant weather events in the mid-1860s, the government recognized the need for organized meteorological data collection.
  • Thus, IMD was founded in Calcutta on January 15, 1875.

Functions of IMD:

  • Observations: Conducts surface and upper air observations, including glacial and radiation monitoring.
  • Processing Satellite Data: Utilizes data from satellites like Kalpana-1 and Megha-Tropiques.
  • Collaboration: Partners with various research institutions for advanced weather prediction.
  • Seismic Observations: Sets up monitoring centers for earthquake detection.
  • Cyclone Forecasting and Naming: Acts as the regional authority for cyclone warnings in the Indian Ocean.
  • Meteorological Statistics: Provides crucial weather data for agriculture, water management, and various industries.

Significance of IMD:

  • Support Farming Community: Assists farmers by predicting monsoon patterns and rainfall impacts.
  • Disaster Management: Aids in forecasting events like cyclones and heatwaves to manage disasters effectively.
  • Accurate Weather Predictions: Utilizes advanced instruments for precise weather forecasting.
  • Study Climate Change: Examines changing weather patterns to assess climate change impacts on India.

Initiatives of IMD:

  • National Monsoon Mission: Launched in 2012, aimed at developing a sophisticated prediction system for monsoon rainfall on various time scales.
  • Mausam App: A weather app launched to improve public access to weather forecasts and warnings.
  • Doppler Weather Radars: Ten new radars have been installed to monitor weather changes in the Himalayas, providing timely forecasts and warnings.
  • National Framework of Climate Services (NFCS): Created to reduce losses from climate hazards by enhancing climate monitoring and prediction services across sectors.

Pulsar Glitches

Why in news?

In 1969, researchers first observed a sudden and short-lived increase in the rotation speed of a pulsar, an event that continues to puzzle scientists 44 years later. To date, over 3,000 pulsars and approximately 700 glitches have been identified, leading to a deeper understanding of their mechanisms.

Science and Technology - 1 | Current Affairs & Hindu Analysis: Daily, Weekly & Monthly - UPSC

Context:

  • In 1967, Jocelyn Bell Burnell and Antony Hewish made the groundbreaking discovery of the first pulsar, designated PSR B1919+21, utilizing an array of antennas to capture radio waves from distant celestial bodies.
  • Pulsars are identified as rotating neutron stars that emit radiation beams, producing periodic pulses when these beams align with Earth.

Details

Neutron Stars and Glitches:

  • Neutron stars arise from the remnants of massive stars that have undergone supernova explosions, featuring a solid outer crust and a core with superfluid properties.
  • In 1969, scientists reported glitches—sudden increases in rotational speed—which contradicted the previous notion that pulsars only decelerate over time.

Post-Glitch Relaxation:

  • The rotation rate of pulsars reveals a predictable pattern post-glitch: a rapid increase followed by a gradual return to the original speed.
  • This behavior indicates a superfluid state within the neutron star, prompting further studies into superfluid dynamics and glitches.

Superfluid Dynamics:

  • Superfluids possess distinct characteristics, including the formation of vortices. In rotating neutron stars, these vortices are anchored to the crust's nuclei.
  • As energy is radiated from the pulsar, the crust decelerates, but the pinned vortices resist movement until the force exceeds their pinning strength, resulting in the angular momentum being transferred, leading to a glitch.

Glitching Mechanism Controversies:

  • There are ongoing debates regarding the causes of glitches and their evolution, making pulsar glitches a rich area for scientific exploration.
  • These phenomena offer valuable insights into the intricate physics at play within neutron stars.

Introduction to Pulsars

  • Definition: Pulsars are rotating neutron stars with strong magnetic fields that emit beams of electromagnetic radiation. These beams create periodic pulses detectable on Earth.
  • Discovery: The first pulsar was discovered in 1967, originally referred to as "LGM-1" due to its regular pulse pattern, which was initially thought to be signals from extraterrestrial life.

Nature and Properties:

  • Neutron Stars: Pulsars are a subtype of neutron stars formed from the collapse of massive stars after a supernova explosion.
  • Magnetic Fields: Pulsars have exceptionally strong magnetic fields, ranging from 10^8 to 10^15 gauss, crucial for radiation emission and rotation.

Formation:

  • Supernova Explosions: Pulsars are formed when massive stars exhaust their nuclear fuel and collapse, expelling outer layers and leaving a dense core that transforms into a neutron star.
  • Angular Momentum Conservation: During this collapse, angular momentum conservation causes an increase in rotational speed, leading to the rapid spinning of pulsars.

Pulsar Emission Mechanism:

  • Magnetic-Dipole Model: This model explains pulsar emissions as the result of a rotating magnetic field generating radiation beams that are observed as pulses when they intersect Earth.

Observations and Detection:

  • Radio Waves: Pulsars were initially detected in the radio spectrum, but have since been observed in X-rays and gamma rays.
  • Pulse Periods: Pulsars exhibit stable pulse periods from milliseconds to several seconds, with variations providing insights into their environments.

Pulsar Variability:

  • Glitches: These sudden rotation speed increases are thought to stem from interactions between the pulsar's superfluid interior and its crust.
  • Timing Noise: Unexpected variations in pulse arrival times, termed timing noise, are an ongoing area of research.

Applications and Significance:

  • Pulsar Timing Arrays: Pulsars are utilized in timing arrays to detect gravitational waves, as tiny fluctuations in pulse arrival times can indicate these waves' presence.
  • Astrophysical Laboratories: Pulsars serve as unique environments for testing theories related to dense matter and general relativity.

Exotic Pulsar Types:

  • Magnetars: A type of pulsar with exceptionally strong magnetic fields, magnetars emit sporadic bursts of X-rays and gamma rays due to intense magnetic activity.
  • Millisecond Pulsars: These pulsars rotate extremely quickly, thought to be rejuvenated by accreting material from a companion star.

Pulsars in Binary Systems:

  • Accretion: Pulsars in binary systems can capture material from companion stars, affecting their emission characteristics and rotation rates.
  • Binary Pulsar Systems: Notable systems, like the Hulse-Taylor binary pulsar, have provided key evidence for gravitational waves, leading to a Nobel Prize in Physics in 1993.

Pulsars and General Relativity:

  • Tests of General Relativity: Pulsar systems, particularly binaries, offer excellent opportunities to validate predictions of general relativity through precise timing measurements.

Multi-Messenger Astronomy:

  • Neutrinos and Gravitational Waves: Pulsars contribute to multi-messenger astronomy, where combined observations across various wavelengths enhance our understanding of cosmic phenomena.

Unsolved Mysteries:

  • Pulsar Magnetospheres: The intricate processes within pulsar magnetospheres pose challenges for complete understanding, particularly regarding emissions and their modulation.
  • Pulsar Formation Models: Despite advancements, the specifics of pulsar formation and the factors influencing their diverse characteristics remain active research topics.

Observational Instruments:

  • Radio Telescopes: Pulsars were predominantly detected using radio telescopes, with technological advances increasing sensitivity and the number of identified pulsars.
  • X-ray and Gamma-ray Observatories: Instruments like the Chandra X-ray Observatory and Fermi Gamma-ray Space Telescope have facilitated studies of pulsars across various parts of the electromagnetic spectrum.

Educational Resources:

  • Pulsar Catalogs: Catalogs such as the ATNF Pulsar Catalog provide extensive data on known pulsars.
  • Educational Outreach: Pulsars serve as valuable tools for educational initiatives, helping to engage students and the public with complex astrophysical concepts.

Conclusion

  • The exploration of glitches enhances our understanding of pulsars and contributes significantly to fundamental physics research in extreme astrophysical conditions.

Demand for Advanced Driver Assistance Systems

Why in news?

India is experiencing a remarkable growth in the demand for Advanced Driver Assistance Systems (ADAS), as the global trend towards autonomous driving gains traction.

ADAS comprises various in-vehicle digital technologies designed to assist drivers in regular navigation and parking tasks. Rather than fully automating driving, ADAS utilizes computer networks to facilitate safer and more data-driven driving experiences. These systems employ sensors, cameras, and radar to observe the vehicle's surroundings, providing crucial information for active safety, driving interventions, and parking assistance. The primary objective of ADAS is to minimize the frequency and severity of automotive accidents, ultimately preventing fatalities and injuries. Additionally, ADAS offers vital information regarding traffic conditions, road closures, congestion levels, and alternative routes to enhance the driving experience.

Popular ADAS Features:

  • Automatic emergency braking
  • Forward collision warning
  • Blind spot collision warning
  • Lane-keeping assist
  • Adaptive cruise control
  • And more

Reasons for Surge in Demand in India:

  • Progressive Democratisation: The adoption of ADAS is increasing as car manufacturers begin to offer these features as standard in mid-range vehicles, enhancing the overall demand for this technology.
  • Road Safety Concerns: In light of India's challenging road conditions, there is a growing focus on enhancing road safety. Automakers are integrating ADAS features to improve safety and provide consumers with advanced assistance tools.

Challenges in India for ADAS Systems:

  • Road Infrastructure Challenges: India faces significant challenges due to its diverse road conditions, ranging from well-maintained highways to poorly constructed rural roads. The country has some of the deadliest roads globally, with over 800,000 fatalities annually, according to the World Bank. These factors complicate the consistent application of ADAS technologies.
  • Diverse Road Users: The Indian road environment is characterized by a mix of pedestrians, cyclists, and non-motorized vehicles, which adds complexity to the adaptation of ADAS. A study by the World Resources Institute (WRI) India highlights that nearly 50% of urban trips are made on foot or by bicycle, underscoring the need for ADAS to address non-motorized road users.
  • Connectivity and Data: Effective operation of ADAS relies on real-time data and reliable connectivity. However, this is often a challenge in remote or poorly connected areas of India.
  • Vulnerable to Hacking: A significant concern regarding ADAS is their susceptibility to cyberattacks, which can endanger vehicle safety and lead to accidents.
  • Driver Behaviour: The effectiveness of ADAS depends on responsible driving practices. A survey by the Institute of Road Traffic Education (IRTE) found that only 44% of drivers in India are aware of ADAS technology, indicating a crucial need for broader education on its benefits and applications.

Growing Concern of Childhood Cancers in India

Why in News?

Childhood cancers are becoming a pressing public health issue in India, with a significant number of cancer patients being under the age of 15. A recent study published in the India Pediatric Journal highlights the prevalence, types, and challenges related to pediatric cancers across the nation.

What are the Key Highlights of the Study?

Study Details and Dataset:

  • The research utilizes the most extensive dataset on childhood cancers in India, derived from the National Cancer Registry Programme (NCRP).
  • The NCRP was initiated by the Indian Council of Medical Research in 1981 to track cancer incidences.

Cancer Cases in India (2012-2019):

  • Between 2012 and 2019, India recorded 1,332,207 cancer cases.
  • Approximately 3.2% of cases were in the 0-14 age group, and 4.6% in the 0-19 age group.
  • More than 3% of all cancer patients in India are below the age of 15, with 4.6% under 20 years.
  • Leukaemias account for nearly half of all cancer cases in the 0-4 and 5-9 age brackets, with proportions of 42.1% and 42.5%, respectively.

Distribution of Cancers in Different Age Groups:

  • Childhood cancers are classified into two age groups: 0-14 years and 0-19 years, following the International Classification of Childhood Cancer’s third edition.
  • In the 0-19 age group, the most common cancers include leukaemia (36%), lymphoma (12%), bone cancer (11%), and central nervous system (CNS) tumors (10%).
  • For the 0-14 age group, the leading cancers are leukaemia (40%), lymphoma (12%), CNS tumors (11%), and bone cancer (8%).

Non-Hodgkin Lymphomas and Gender Differences:

  • Non-Hodgkin lymphomas show an increase with age, particularly among males, likely due to hormonal and biological changes.
  • Malignant bone tumors are more prevalent in girls, which may relate to earlier skeletal maturity.

Gender Disparities and Social Determinants:

  • A higher percentage of male children are diagnosed with cancer, influenced by cultural preferences for male children and gender-based discrimination.
  • This gender disparity in cancer registries reflects data from low- and middle-income countries (LMICs), often linked to lower literacy rates among females.
  • LMICs bear 90% of the global cancer burden but receive less than 0.1% of funding for pediatric cancer research.

Challenges in CNS Tumor Registration in India:

  • CNS tumors are frequently treated in general multispecialty hospitals rather than specialized cancer centers.
  • The NCRP currently registers only 'malignant' CNS tumors, as defined by World Health Organization Grades 3 and 4.

Global Disparities in Cancer Types:

  • The incidence of leukaemias and bone cancers appears to be higher globally than in India, as indicated by a 2017 study in The Lancet Oncology.
  • The international incidence of CNS tumors is also greater than what is observed within India.

What are India's Initiatives Related to Cancer Treatment?

  • National Programme for Prevention and Control of Cancer, Diabetes, Cardiovascular Diseases, and Stroke.
  • National Cancer Grid.
  • National Cancer Awareness Day.
  • HPV Vaccine.
  • Indian Pediatric Oncology Group (InPOG): Established in 2015 to develop multicenter childhood cancer clinical trials, currently pursuing 31 clinical studies on pediatric cancer.
  • In 2021, InPOG transitioned into the Indian Pediatric Hematology Oncology Group (INPHOG) Research Foundation to enhance access to advanced therapies and protocols through clinical trials.

Google DeepMind’s Genie

Why in News?

Recently, Google DeepMind has introduced Genie AI (Artificial Intelligence), a groundbreaking model capable of generating interactive video games from simple text or image prompts. Google DeepMind, a British-American AI research laboratory, operates as a subsidiary of Google and is headquartered in London, with additional research centers located in Canada, France, Germany, and the US.

What is Genie?

About: 

  • Generative Interactive Environments (Genie) is a foundational world model trained using videos sourced from the Internet.
  • The model can create an infinite variety of playable worlds that are action-controllable using synthetic images, photographs, or even sketches.
  • Notably, Genie is the first generative interactive environment trained in an unsupervised manner utilizing unlabelled internet videos.

Significance:

  • Genie can generate a wide range of interactive and controllable environments, despite being trained solely on video data.
  • The model identifies which aspects of an observation are generally controllable and infers various latent actions that remain consistent across the generated environments.
  • It represents a significant advancement by enabling the creation of playable environments from a single image prompt, including images it has never encountered before.
  • Users can interact with imagined virtual worlds using real-world photographs or sketches.
  • This innovation opens up various possibilities, particularly new methods for creating and exploring virtual environments.
  • Genie's ability to learn and develop new world models marks a crucial step towards achieving general AI agents, which are independent programs or entities interacting with their surroundings via sensors.

What is Generative Artificial Intelligence (GAI)?

  • About: GAI represents a rapidly evolving segment of AI focused on generating new content, such as images, audio, text, and more, based on learned patterns and rules from data.
  • The growth of GAI is largely due to advancements in generative models like Generative Adversarial Networks (GANs) and Variational Autoencoders (VAEs).
  • These models undergo training on vast datasets, allowing them to produce new outputs that closely resemble the training data. For example, a GAN trained on facial images can create new, synthetic yet realistic images of faces.
  • While GAI is often linked to technologies like ChatGPT and deep fakes, its initial applications included automating repetitive tasks in digital image and audio corrections.
  • Furthermore, since machine learning and deep learning heavily rely on generative processes, they can also be categorized as forms of GAI.

Applications:

  • Art and Creativity: GAI can generate unique and innovative works of art, enabling artists to explore new ideas and challenge traditional art forms.
  • Example: DeepDream Generator is an open-source platform that employs deep learning algorithms to create surreal, dream-like images.
  • Example: DALL·E 2, an AI model from OpenAI, generates new images based on text descriptions.
  • Music: GAI assists musicians and producers in discovering new sounds and styles, resulting in more diverse and engaging music.
  • Example: Amper Music produces musical tracks using pre-recorded samples.
  • Example: AIVA utilizes AI to compose original music across different genres and styles.
  • Computer Graphics: GAI can create new 3D models, animations, and special effects, enhancing realism and engagement for movie studios and game developers.
  • Healthcare: By generating new medical images and simulations, GAI improves the accuracy and efficiency of diagnoses and treatments.
  • Manufacturing and Robotics: GAI optimizes manufacturing processes, enhancing efficiency and quality.

Significance for India:

  • According to NASSCOM data, there are approximately 416,000 professionals employed in the AI sector in India.
  • The sector's growth rate is projected to be around 20-25%.
  • AI is anticipated to contribute an additional USD 957 billion to India's economy by the year 2035.

What are the Concerns Related to GAI?

  • Accuracy: A major challenge is ensuring that GAI-generated outputs are of high quality and accurate, necessitating the development of advanced generative models capable of accurately capturing learned patterns and rules.
  • Partisan GAI Models: GAI models are trained on large datasets, and if these datasets contain biases, the outputs can also be biased, potentially leading to discrimination and the reinforcement of existing societal biases.
  • Privacy: Training GAI models requires access to large datasets, which may include personal and sensitive information. This raises ethical concerns regarding the potential misuse of such data for targeted advertising or political manipulation.
  • Accountability for Misinformation: GAI's capacity to generate new content, including images, audio, or text, poses risks of producing fake news or malicious content without clear accountability for the outputs, leading to ethical dilemmas.
  • Automation and Lowering Job Opportunities: The potential for GAI to automate various processes raises concerns about job displacement for skilled workers in those fields, prompting ethical discussions about the use of AI in job elimination and its societal impact.

What are India's Initiatives for Generative AI?

  • Generative AI Report: The Government of India's National AI Portal, INDIAai, has conducted multiple studies and hosted three roundtable discussions with leading figures in Generative AI, AI Policy, AI Governance, Ethics, and academia to explore the implications, ethical considerations, and opportunities presented by GAI in India.
  • Co-Founding Global Partnership on Artificial Intelligence (GPAI): In 2020, India collaborated with 15 other nations to establish the GPAI, aimed at creating frameworks for responsible use of emerging technologies.
  • Fostering an AI Ecosystem: The Indian government is committed to nurturing an AI ecosystem through investments in research and development, supporting startups and innovation hubs, creating AI policies, and promoting AI education and skills development.
  • National Strategy for Artificial Intelligence: The Government has released a National Strategy for Artificial Intelligence with the goal of developing a robust ecosystem for AI research and adoption.
  • National Mission on Interdisciplinary Cyber-Physical Systems: Under this mission, Technology Innovation Hubs (TIH) focusing on AI & ML have been established at IIT-Kharagpur, aimed at training the next generation of scientists, engineers, technicians, and technocrats in AI.
  • Artificial Intelligence Research, Analytics and Knowledge Assimilation Platform: This initiative leverages cloud computing to position India as a leader among emerging economies in AI and to transform sectors like education, healthcare, agriculture, urbanization, and mobility.

Conclusion

Generative AI is a powerful and promising technology with the potential to deliver numerous benefits. However, it also introduces various challenges and risks that must be effectively addressed through responsible regulation. India should pursue a proactive and balanced approach to the implementation of generative AI, ensuring its safety, security, and ethical use.


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FAQs on Science and Technology - 1 - Current Affairs & Hindu Analysis: Daily, Weekly & Monthly - UPSC

1. What is the significance of celebrating 150 years of weather monitoring?
Ans. Celebrating 150 years of weather monitoring highlights the long history of collecting and analyzing weather data, which has been crucial for understanding climate patterns and making weather predictions.
2. How do pulsar glitches affect our understanding of the universe?
Ans. Pulsar glitches, sudden changes in the rotation of pulsars, provide valuable insights into the internal structure of neutron stars and can help astronomers study the behavior of matter in extreme conditions.
3. Why is there a growing demand for Advanced Driver Assistance Systems (ADAS)?
Ans. The demand for ADAS is increasing due to the potential to improve road safety by providing drivers with automated features such as collision warning systems, lane-keeping assistance, and adaptive cruise control.
4. What factors contribute to the growing concern of childhood cancers in India?
Ans. The growing concern of childhood cancers in India can be attributed to factors such as environmental pollution, genetic predisposition, lack of access to healthcare, and lifestyle factors.
5. How does Google DeepMind's GenieScience and Technology impact the field of artificial intelligence?
Ans. Google DeepMind's GenieScience and Technology aims to advance artificial intelligence research by developing algorithms that can learn and adapt more efficiently, potentially leading to breakthroughs in various applications such as healthcare, robotics, and data analysis.
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