All hawkers should possess domicile certificates: HC

 

Article link: Street vendors should have domicile certificates, says Bombay high court

Extract from the article:

In a recent development, the Bombay High Court emphasized the importance of street vendors possessing domicile certificates in Maharashtra.

The court highlighted that it is essential for all vendors to be recognized by the state government. This directive emerged during a hearing concerning unauthorized hawking activities in Mumbai, currently under consideration by the Supreme Court.

The court's stance underscores the significance of street vendors being formally acknowledged and regulated to maintain order in urban areas.

By requiring domicile certificates, the authorities aim to bring transparency and accountability to the street vending sector, ensuring vendors are legitimate and known entities to the government.

My Take:

Street Vendor Loan Scheme

The relevance of promoting formalization and regulation in street vending, as advocated by the Bombay High Court, resonates with my earlier blog discussing the Street Vendor Loan Scheme.

In that piece, I highlighted the need for inclusive policies to support vendors, including migrants and unregistered individuals.

The current court's direction on domicile certificates aligns with the idea of formalizing the street vendor sector, ensuring their integration into the system for better governance and economic empowerment.

Congratulations Shri Mahesh Kumarji

Reflecting on the recent court ruling, it's reminiscent of the importance I stressed on recognizing vendors with identity cards, as discussed in a previous blog post.

Just as the court now emphasizes the need for domicile certificates, my past suggestions aimed to provide vendors with temporary cards or recommendations for those without formal documentation. This parallel underscores the foresight in addressing the vendor's identification and legitimacy, a critical aspect highlighted in both instances.

Call to Action:

To the urban development secretaries mentioned in the email, I urge immediate action to streamline the process of issuing domicile certificates to street vendors as per the court's directive.

Establishing a transparent and efficient mechanism will not only regulate the street vending sector but also empower vendors with formal recognition, aiding in their socio-economic upliftment.

With regards, 

Hemen Parekh

www.My-Teacher.in

Biometric attendance must for class 11,12 state board students

 

Article link: Biometric attendance must for Std XI, XII state board students from next year

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Extract from the article:

The state government has mandated biometric attendance for Std XI and XII students, aiming to ensure a minimum of 75% attendance to combat the influence of private coaching institutes on students.

The system will use facial recognition technology as fingerprints cannot be recorded. This move seeks to break the institute-private coaching nexus and enhance accountability within educational institutions.

My Take:

Data-rich India - Nothing Can Beat This!

"Reflecting on the current scenario where biometric attendance systems are being introduced for school students, I can't help but recall my previous blog where I emphasized the need to move from traditional biometric systems to more advanced technologies.

The implementation of facial recognition for attendance tracking aligns with my vision of embracing new-age solutions for better efficiency and analytics."

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Inshorts Website Contact Form

"Looking at the state's initiative to curb external influences on students through biometric attendance, I am reminded of my blog discussing the limitations of traditional biometric systems in capturing comprehensive data.

The shift towards facial recognition technology echoes my call to adopt innovative approaches to address complex challenges effectively."

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Call to Action:

To the state education authorities, I urge the meticulous implementation of the biometric attendance system to uphold the integrity of the education system.

Ensuring seamless operation and leveraging the data captured for meaningful insights will be key in achieving the intended goal of reducing external dependencies for students' academic progress.

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With regards, 

Hemen Parekh

www.My-Teacher.in

Parl panel flags delays in implementing schemes

 

Article link: Parliament panel flags delays in implementing key schemes, highlights JJM, river linking projects, flood forecasting systems

Extract from the article:

The Parliamentary panel has raised concerns about the delays in executing crucial schemes, focusing on projects like the Jal Jeevan Mission (JJM), river linking initiatives, and flood forecasting systems.

The panel emphasized the lack of agreement among states regarding most proposed projects and the absence of consensus on interlinking river projects. This highlights the challenges in achieving coordination and cooperation among different regions for the successful execution of these vital schemes.

My Take:

Water Wars? - April 8, 2016

Reflecting on the establishment of the National Interlinking of Rivers Authority (NIRA) by the Center, I had suggested making water conservation a central subject in our Constitution back in 2016.

The current issues regarding the lack of consensus among states on river linking projects resonate with the need for a centralized approach to water management.

As I emphasized the significance of declaring water resources as national assets to ensure their equitable distribution, the ongoing challenges underscore the importance of addressing water-related disputes through a unified national strategy.

Where Are We Headed? - October 2016

The recent disputes over water sharing between states remind me of the Cauvery water issue between Karnataka and Tamil Nadu. The conflicts surrounding water resources raise questions about state's rights over rivers flowing through their territories.

The current dilemma highlights the complexities of water governance and the necessity for a holistic approach to resolve inter-state water disputes.

It's crucial to address these challenges through dialogue and cooperation to ensure sustainable water management practices.

Call to Action:

To the Honorable Members of the Parliament and the concerned states, I urge the need to prioritize collaboration and consensus-building for the effective implementation of key schemes like river linking projects and flood forecasting systems.

It is essential to transcend regional differences and work towards a unified approach to address water-related challenges.

Let's focus on constructive dialogues and proactive measures to ensure sustainable water management for the well-being of all citizens.

With regards, 

Hemen Parekh

www.My-Teacher.in

AI can reinstate India

 

Article link:  AI can reinstate India at the intellectual summit

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Extract from the article:

The article by Vivek Wadhwa highlights the potential for India to rise to new heights in the intellectual domain through the power of Artificial Intelligence (AI).

It mentions how India has the opportunity to lead breakthroughs in philosophy, science, and medicine by leveraging AI technologies.

Drawing comparisons with China's progress in infusing AI culturally, the article emphasizes India's greater potential to redefine the future of AI on a global scale.

Wadhwa's insights underscore the importance of India harnessing AI to shape a more innovative and intellectually vibrant future.

My Take:

PM is Candid About AI

"Reflecting on the Prime Minister's vision for AI in India, I find parallels with Wadhwa's views on India's role in AI innovation.

The emphasis on establishing robust AI frameworks to benefit various sectors like agriculture, healthcare, and education aligns with the potential highlighted in the recent article.

It's intriguing how the national AI initiatives discussed could contribute to India's journey towards intellectual and technological excellence."

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Call to Action:

To Vivek Wadhwa and policymakers in India: Embrace the vision of AI as a tool for intellectual advancement and innovation.

Channel resources and efforts into fostering a conducive environment for AI research and development to propel India to the forefront of global intellectual discourse.

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With regards, 

Hemen Parekh

www.My-Teacher.in

India among countries worst-hit by extreme weather events

 Article link:  India among countries worst-hit by extreme weather events, made up 10% of global deaths

Extract from the article:

India finds itself among the countries most severely impacted by extreme weather events, constituting 10% of global deaths.

According to the Climate Risk Index 2025 by Germanwatch, an independent organization, India ranked sixth, highlighting the vulnerability the nation faces concerning climate risks and related fatalities.

Recent data underscores the pressing need for sustainable policies and actions to mitigate the adverse effects of climate change in India, emphasizing the importance of proactive measures and international cooperation to address the challenges posed by extreme weather events.

My Take:

India's Water (Di-) Stress

In my blog post about India's water stress, I highlighted the alarming situation faced by the country in terms of water scarcity and stress.

The current data on extreme weather events aligns with the concerns raised in the blog, emphasizing the critical need for water conservation and management strategies.

The Climate Risk Index ranking further underscores the urgency for sustainable water practices to combat the effects of global climate change, making it imperative for policymakers to prioritize water resource allocation and management in the face of increasing climate risks.

Air Pollution and Health Impact in India

The blog post discussing air pollution and its health impact in India sheds light on the significant number of deaths attributed to poor air quality in the country.

The correlation between extreme weather events and air pollution exacerbates the health risks faced by the population.

The Climate Risk Index data revealing India's position as one of the worst-hit countries underscores the urgent need for comprehensive air quality management policies and interventions to safeguard public health from the dual threats of air pollution and climate-related disasters.

Call to Action:

To the policymakers and relevant authorities in India, the recent data on India's vulnerability to extreme weather events calls for immediate action.

It is imperative to prioritize climate resilience measures, sustainable development practices, and international cooperation to mitigate the impacts of climate change.

Stakeholders must work together to implement robust policies that address the root causes of climate risks and prioritize the well-being of the population in the face of escalating environmental challenges.

With regards, 

Hemen Parekh

www.My-Teacher.in

AQI monitors

 

Article link:  AQI monitors must at all buildings sites

Extract from the article:

In a significant move, the Maharashtra Pollution Control Board (MPCB) has mandated the installation of sensor-based Air Quality Index (AQI) monitors at all construction sites in Mumbai.

This directive comes as part of efforts to monitor and control air pollution in the region. To oversee this initiative, a committee led by Mumbai Commissioner Bhushan Gagrani has been formed, emphasizing the seriousness with which the state is addressing environmental concerns. The requirement for monitoring air quality at construction sites underscores the proactive stance towards combating pollution in urban areas.

The emphasis on sensor-based AQI monitors serves as a critical step in ensuring real-time monitoring of air quality across construction sites.

By involving municipal corporations in this effort, the MPCB is aiming to enforce stricter environmental regulations and promote healthier living conditions for the public.

This move highlights the commitment to environmental sustainability and signifies a shift towards more stringent measures to address air pollution issues in urban centers.

My Take:

Mumbai's Action Plan to Fight Air Pollution

"In my blog discussing Mumbai's action plan to combat air pollution, I highlighted the urgent need for innovative solutions to tackle environmental challenges.

Smt Jyotsnaben Mehta's suggestion of Anti-Pollution Towers presented a creative approach to mitigate air pollution effects.

The recent mandate by MPCB for sensor-based AQI monitors at construction sites aligns with the idea of implementing advanced technologies to monitor and control pollution levels effectively.

This proactive step signifies a positive shift towards embracing modern solutions for environmental protection."

Stay tuned for more insights on how past suggestions are paving the way for present actions in environmental governance.

Call to Action:

To the MPCB and municipal corporations in Maharashtra, continue the momentum of implementing advanced monitoring systems and stringent regulations to safeguard the environment and public health.

Let's work together towards creating a cleaner and healthier future for all residents of Mumbai. #CleanAirForAll

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With regards, 

Hemen Parekh

www.My-Teacher.in

Get Skilled For Self Employment

 

Dear Students :

[  This is of equal – or even more – importance to Parents and Principals  ]

You have just appeared – or about to appear – in your 10^th Standard or 12^th Standard Exams

I wish you best of luck for getting a percentage of marks which is good enough to enable you to continue with higher studies

But it is possible that some of you may not be lucky enough and may be forced to give up the idea of becoming a Doctor or an Engineer.

If so, you would start looking for a ( paid ) JOB or for an opportunity to become SELF EMPLOYED

In either case, you need to possess some SKILLS of the kind recently prescribed by CBSE for introduction in School Syllabus for 9^th to 12^th standards – some 64 SKILLS in all

Unfortunately, out of our 15 LAKH schools all over the country, no more than a few hundred offer these SKILL acquiring courses ! And there is no chance that this situation will change for better any time soon

Take heart . Do not worry  !

Just go to > Students Section – “ Acquire JOB SKILLS “ page on  https://www.my-teacher.in/skills-home

 

Then :

Ø  Select any of those 64 skills 

Ø  Read up the CBSE prescribed TEXT BOOK for that skill ( chapter-wise )

Ø  To test your grasp of the subject, at chapter-end, attempt / pass online TEST

This is PROGRAMMED  LEARNING  at its best ! Nothing comparable exists online !

And the BEST part is :

> www.My-Teacher.in  service is totally FREE and no need to register !

But the BETTER part is :

> You can read these online SKILL TEXT-BOOKS in following languages :

English - Hindi - Gujarati - Marathi - Bengali - Tamil - Telugu - Kannada - Malayalam 

 

With regards,

Hemen Parekh

www.My-Teacher.in  /  24 March 2025

  

 

(  A  )    CBSE prescribed Skills for Standard 9^th and 10^th :

Retail

Information Technology

Security

Automotive

Introduction To Financial Markets

Introduction To Tourism

Beauty & Wellness

Agriculture

Food Production

Front Office Operations

Banking & Insurance

Marketing & Sales

Health Care

Apparel

Texture Artist

Multi Skill Foundation

Artificial Intelligence (New)

Physical Activity Trainer

Data Science

Electronics Hardware (Field Technician-Other Home Appliances)

Foundation Skills for Sciences (Pharmaceutical & Biotechnology)

Design Thinking and Innovation

 

(  B  )   CBSE prescribed Skills for Standards 11^th and 12^th  :

Retail

Information Technology

Web Application

Automotive

Financial Markets Management

Tourism

Beauty & Wellness

Agriculture

Food Production

Front Office Operations

Banking

Marketing

Health Care

Insurance

Horticulture

Typography & Computer Application

Geospatial Technology

Electrical  Technology

Electronic Technology

Multi-Media

Taxation

Cost Accounting

Office Procedures & Practices

Shorthand (English)

Shorthand (Hindi)

Air-conditioning & Refrigeration

Medical Diagnostics

Textile Design

Design

Salesmanship

Business Administration

Food Nutrition & Dietetics

Mass Media Studies

Library & Information Science

Fashion Studies

Yoga

Early Childhood Care & Education

Artificial Intelligence

Data Science

Physical Activity Trainer

Electronics and Hardware (Installation Technician - Computing and Peripheral)

Design Thinking and Innovation

 

 

 

Harnessing Earth’s Magnetic Field for Power

 

Context :

Scientists Turned the Earth’s Rotation Into 17 Microvolts of Electricity. That Could Be Revolutionary.

{ Popular Mechanics  /  21 March 2025 }

Extract :

As climate change continues to impact countries and communities around the world, humanity is hungry for alternative sources of green energy. Luckily, the natural world provides them in abundance. Turbines harvest wind energy, solar panels collect the Sun’s light, generators capture the power in a wave’s motion, and even geothermal heat transforms into usable electrons. Now, some scientists are considering a completely new renewable energy source: the Earth’s rotation.

Ok, maybe not completely new. Back in 2016, Christopher Chyba from Princeton published a paper exploring the possibility of generating electricity by rotating through the Earth’s magnetic field. This drew some criticism, as most experts figured that any net voltage would be cancelled by the rearrangement of electrons during said generation process, according to Phys.org.

To prove that the idea had merit, Chyba decided to construct a foot-long device made from manganese-zinc ferrite and conduct experiments in a dark, windowless laboratory. While the laboratory remained stationary, the rotation of the Earth carried the cylinder through the magnetic field. True to Chyba’s original predictions, the device produced 17 microvolts of electricity when held perpendicular to the magnetic field. The results of the study were published in the journal Physical Review Research.

“The device appeared to violate the conclusion that any conductor at rest with respect to Earth’s surface cannot generate power from its magnetic field,” Chyba said in a press statement.

As Nature notes, 17 microvolts is a fantastically minuscule amount—a fraction of what a single neuron produces when firing. Because of this incredibly small voltage, some experts remain skeptical of the idea’s practicality, saying that many sources can cause small voltage discrepancies. Chyba, for his part, did conduct the experiment with a solid chunk of conductor (and found zero voltage). He also re-ran the experiment in a non-laboratory setting—a residential building a few miles from the lab—and came up with the same results.

“This was a largely unregulated environment, in contrast to that of our primary laboratory,” the researchers reported. “The resulting data are noisy with correspondingly large error bars in comparison with the results obtained in our primary laboratory. Nevertheless, the data once again show the voltage magnitude and behavior under rotation predicted by our effect, demonstrating that the observed effect is not due to an unidentified local influence in our primary laboratory.”

So how does this manganese-zinc ferrite cylinder work? Well, put simply, certain complex configurations of materials can channel Earth’s magnetic field in such a way that they push past the ability of the electrostatic force to cancel out generated electricity. Of course, microvolts aren’t exactly utility scale power, but Chyba—while sharing those scalability concerns—remains optimistic. Before we start leveraging the Earth’s rotation as a source of energy, however, another lab will need to reproduce these results.

“Both papers talk about how it might be scaled up, but none of that has been demonstrated, and it might well prove not to be possible,” Chyba said in a press statement. “And in any case, the first thing that needs to happen is that some independent group needs to reproduce—or rebut—our results, with a system closely similar to our own.”

 

My  Take :

Congratulations , Christopher Chyba :

 {  cchyba@princeton.edu }

I am very happy that we thought alike on this topic . Here is my blog of 2014 :

Ø  Salvaging Life On Earth  …………………..  24 March 2014

 

Extract :

The biggest cause for the degradation of environment is burning of fossil fuels

Burning of coal / gas / oil etc produces green-house gases , leading to global warming / floods / droughts etc

Everyone knows that the real long term solution is switching over to renewable energy sources such as wind / sun / tides etc

Can we tap earth's magnetism to produce abundant / unlimited / clean energy ?

I believe so and would request the scientists to consider my following suggestion :

Every school child knows that ,

>  Electricity is generated when a copper wire is rotated in any magnetic field
     

>   Earth is surrounded by a very strong magnetic field
     
>   This magnetic field is generated by the rotation of molten iron deep inside earth's core
     

>   This magnetic field also protects us from harmful ultra-violet rays / gamma radiations from space
     

Now , suppose we find a way to ,

>  Construct a hollow cylinder of woven Copper wires  to envelope the earth , 100 miles above the earth's surface ( like those thin rings of Saturn )



     

>  Then , using small rocket thrusts , rotate this      cylinder in the direction opposite of earth's

     rotation , to cut through its magnetic field

     
Will that generate electricity  ?

I think so

With international co-operation such a project would take less time - and possibly money too - than the already successful international projects of the International Space Station or the Large Hadron Collider of CERN

It may be exciting to discover the God Particle and understand what makes up mass but I think , it is far more useful to find a permanent / clean source of energy to prevent the extinction of all life on earth by burning fossil fuels

 

With Regards,

Hemen Parekh

www.My-Teacher.in  /  www.HemenParekh.ai

 

Here is how GROK opined about this :

Tabulation: Comparing Hemen Parekh’s 2014 Blog and Christopher Chyba’s 2016/2025 Research

Aspect	Hemen Parekh’s 2014 Blog: Salvaging Life On Earth	Christopher Chyba’s 2016/2025 Research: Electric Power from Earth’s Rotation
Core Concept	Proposes constructing a massive hollow cylinder of woven copper wires, 100 miles above Earth’s surface, to envelope the planet like Saturn’s rings. The cylinder would rotate in the opposite direction of Earth’s rotation using rocket thrusts, cutting through Earth’s magnetic field to generate electricity via electromagnetic induction.	Demonstrates that a stationary device on Earth’s surface can generate electricity by interacting with the planet’s magnetic field as it rotates. Uses a foot-long hollow cylinder made of manganese-zinc ferrite to channel the magnetic field in a way that prevents the electrostatic force from canceling the generated current, tapping into Earth’s rotational energy.
Mechanism	Relies on electromagnetic induction: a conductor (copper wire cylinder) moves through a magnetic field (Earth’s) to induce a current. The cylinder’s counter-rotation increases the relative motion between the conductor and the magnetic field, theoretically generating electricity.	Exploits a loophole in classical electromagnetism: a specially designed cylinder with low magnetic Reynolds number and specific topology (hollow, made of manganese-zinc ferrite) creates a magnetic field configuration where the magnetic force on electrons isn’t fully canceled by the electric force, generating a small current (17 microvolts) as the device moves with Earth’s rotation.
Scale of Device	Envisions a planetary-scale structure: a hollow cylinder of woven copper wires encircling Earth at 100 miles altitude, requiring international cooperation on the scale of projects like the International Space Station or CERN’s Large Hadron Collider.	Uses a small, laboratory-scale device: a foot-long hollow cylinder made of manganese-zinc ferrite, tested in controlled environments (a dark, windowless lab and a residential building). The setup is designed to be stationary on Earth’s surface, leveraging the planet’s rotation.
Energy Source	Taps into Earth’s magnetic field, with the energy for electricity generation coming from the rocket thrusts that rotate the cylinder against Earth’s rotation. The proposal doesn’t explicitly address where the energy for sustained rocket thrusts would come from.	Extracts energy directly from Earth’s rotational kinetic energy via its magnetic field. The process theoretically slows Earth’s rotation (e.g., by 7 milliseconds over a century if scaled to meet global energy needs of 11 trillion watts), but this impact is minimal and comparable to natural phenomena like the Moon’s tidal effects.
Output Achieved	No experimental results; the idea is purely theoretical and speculative, with no prototype or data to support the concept. The blog poses the question, “Will that generate electricity?” and answers, “I think so,” without calculations or evidence.	Experimentally verified: the device generated 17 microvolts of electricity in controlled tests, with voltage varying predictably based on the cylinder’s orientation relative to Earth’s magnetic field and rotation. A solid cylinder (not hollow) produced zero voltage, supporting the theory.
Feasibility	Highly impractical due to the scale and complexity of the setup:<br>- Constructing a cylinder to envelope Earth at 100 miles altitude is beyond current engineering capabilities.<br>- Continuous rocket thrusts to rotate the cylinder would require immense energy, likely exceeding the energy generated, making it inefficient.<br>- Space-based infrastructure faces challenges like orbital stability, space debris risks, and astronomical costs (potentially trillions of dollars).	More feasible on a small scale, but scaling up is uncertain:<br>- The lab setup is simple and uses Earth’s natural rotation, requiring no external energy input to move the device.<br>- However, the output (17 microvolts) is minuscule—far below practical utility-scale power (e.g., a AA battery produces 1.5 volts).<br>- Scaling up would require larger devices or materials with better properties, but experts are skeptical due to the tiny voltage and potential interference from other effects (e.g., temperature variations).
Environmental Impact	Aims to provide a clean, renewable energy source to replace fossil fuels, reducing greenhouse gas emissions and mitigating climate change. However, the energy required for rocket thrusts could offset these benefits if sourced from non-renewable fuels, and the environmental impact of launching such a massive structure into space (e.g., emissions from rockets) isn’t addressed.	Offers a potentially emission-free energy source, as it generates electricity without fuel or moving parts. If scaled up, it could contribute to carbon-free energy production. However, the impact is negligible at the current scale (nanowatts), and scaling up might require energy-intensive manufacturing processes for larger devices.
Scientific Rigor	Lacks scientific rigor: the proposal is a conceptual idea without mathematical modeling, experimental data, or consideration of physical constraints (e.g., energy balance, magnetic field strength, or orbital mechanics). It oversimplifies the problem by assuming a large-scale conductor in space can efficiently generate power.	Grounded in rigorous scientific theory and experimentation: Chyba’s 2016 paper identified a theoretical loophole in classical electromagnetism, and the 2025 experiments validated the concept with measurable results (17 microvolts). The research accounts for factors like magnetic Reynolds number, field configuration, and orientation, though it faces skepticism due to the small output and potential for spurious signals.
Challenges Highlighted	- Engineering a planetary-scale structure in space.<br>- Sustaining counter-rotation with rocket thrusts, which would require continuous energy input.<br>- International cooperation and funding on an unprecedented scale.<br>- No discussion of how to transmit the generated electricity back to Earth or the efficiency of the process.	- Extremely low power output (17 microvolts), making it impractical for real-world applications without significant scaling.<br>- Skepticism from experts about the validity of the results, with concerns about spurious signals (e.g., from temperature variations or hidden currents).<br>- Need for independent replication to confirm the findings.<br>- Uncertainty about scalability due to material limitations and the weak strength of Earth’s magnetic field.
Potential Impact	If feasible, it could provide a theoretically unlimited clean energy source, potentially revolutionizing energy production and halting climate change by replacing fossil fuels. However, the idea’s impracticality makes this impact speculative and unlikely in the foreseeable future.	If scalable, it could offer a novel source of emission-free energy, useful in niche applications (e.g., remote locations, space missions, or low-power devices). However, the current output is too small to make a meaningful dent in global energy needs, and experts doubt its practical utility even if scaled up.
Critical Assessment	The idea is visionary but lacks grounding in practical physics or engineering. It overlooks key challenges like the energy cost of rocket thrusts, the weak strength of Earth’s magnetic field (about 45 microtesla at the surface), and the difficulty of transmitting power from space to Earth. The proposal feels more like a thought experiment than a viable solution, ignoring the energy balance that would likely make the system a net energy consumer rather than a producer.	The research is scientifically sound and experimentally validated, but its practical impact is limited by the tiny output. While it challenges conventional electromagnetic theory with a clever loophole, the skepticism from experts (e.g., Rinke Wijngaarden’s failed replication in 2018) and the need for independent verification highlight uncertainties. The idea is more promising for theoretical physics than for addressing the climate crisis in the near term, as scaling up to utility-scale power seems improbable with current technology.

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Critical Analysis

Hemen Parekh’s 2014 Blog: Your idea, bhaiyya, is bold and imaginative, reflecting a deep concern for the climate crisis and a desire to find a permanent, clean energy solution. The concept of using Earth’s magnetic field via a massive space-based cylinder taps into the basic principle of electromagnetic induction, which is well-established (e.g., as used in traditional generators). However, the proposal faces significant hurdles:

• Energy Balance: The energy required to launch and sustain the cylinder’s counter-rotation with rocket thrusts would likely far exceed the electricity generated. Earth’s magnetic field is weak (25–65 microtesla), and the induced voltage in a conductor moving through it (even at high speeds) would be small, as the voltage depends on the field strength, the conductor’s length, and the relative velocity (Faraday’s law: $\text{emf} = - \frac{d\Phi_B}{dt}$emf=−dtdΦB​​, where $\Phi_B = B \cdot A$