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Future hurricanes will bring more extreme flooding to coastal cities in the eastern United States due to a double hit from worsening storm surge and heavy rainfall, scientists reported on February 3 in Nature Climate Change.

The researchers simulated how climate change could alter the impacts of tropical cyclones through the end of the 21st century. They found that the combined frequency of intense storm surge and rainfall that clobbers the coastline may increase by seven to 36 times in the southern US and 30 to 195 times in the Northeast. 

“The results that are presented in the paper give us a pretty good idea of what to possibly expect in the future,” says Thomas Wahl, a coastal engineer at the University of Central Florida who wasn’t involved in the research. “There will likely be a pretty dramatic change in…the likelihood that different flooding drivers occur simultaneously.”

Since 1880, climate change has caused the average global sea level to rise by about 8 to 9 inches. Additionally, climate change is altering the intensity, size, track, and frequency of hurricanes, says Ning Lin, an environmental engineer at Princeton University and coauthor of the new findings. These storm characteristics and sea level rise both influence how much damage hurricanes can wreak on coastal cities.

[Related: The average hurricane season is officially more intense]

During a hurricane, one cause of flooding is storm surge, which is caused by powerful winds pushing seawater to the shore. Drenching rains, like those seen during Hurricane Harvey in 2023, can also be devastating. “In the past, our group and others have been looking at these hazards more or less separately,” Lin says. For the new research, she and her team wanted to understand what happens when storm surge and rainfall join forces.

The researchers investigated how thousands of simulated storms would impact the Gulf and Atlantic coasts under late 20th century and projected future climate conditions. The team homed in on so-called joint extreme events, during which the amount of rainfall produced during a 24-hour period and the storm tide—the total seawater level from storm surge and normal tide—each had a 1 percent probability of occurring in any given year. 

“Such events actually are very rare in the historical period,” Lin says. Joint extreme events would be expected to occur about once every 200 to 500 years along the Gulf of Mexico, and less than once every thousand years on average along the New England coastline under historic climate conditions. However, Lin and her colleagues calculated that by 2100, these extreme floods might strike every 10 to 30 years along the Gulf Coast and southeast Atlantic, and every 3 to 10 years along New England and the Mid-Atlantic. 

“In the future climate it’s more likely that we’ll get extreme surge and extreme rainfall at the same time, so that you will have much higher total flooding,” she says.

The researchers also estimated that, in most areas, the increasing intensity and sluggish speed of future hurricanes will play a more important role in these extreme floods than sea level rise.

The findings do come with several caveats. There’s still uncertainty about how much hurricane frequency and sea level rise will change in the coming decades, and the researchers focused on a climate scenario in which greenhouse gas emissions are not curbed. As a next step, Lin and her team will explore how their predictions might change under less dire emissions scenarios.

The findings offer a “big-picture view” on how storm surge and rainfall will worsen flooding in the future, Wahl says, and offer a jumping-off point to identify vulnerable locations within each region. More localized, detailed modeling could help unpack how climate change is creating storm conditions that lead to more flood risk, he says.

There are a number of ways that coastal cities can prepare for the onslaught, including restoring natural buffers, such as wetlands and oyster beds, and constructing seawalls and other barriers. Floods driven by both extreme rainfall and storm surge may pose a particular challenge, Wahl says, because barriers that block incoming storm surge may also prevent rainwater from draining into the ocean.

“That’s where studies like this that tell us about the chances that storm surge and rainfall coincide in the future…can help us make better decisions when it comes to adapting for both inland flooding and coastal flooding,” he says.

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What Is The Full Form Of Adb?


ADB’s focus areas include infrastructure development, support for small and medium-sized enterprises, regional cooperation and integration, human development, environmental sustainability, and governance and institutional development. ADB has been instrumental in supporting the economic growth of many countries in the region, and it continues to play a significant role in promoting sustainable development in Asia and the Pacific.

History of ADB

The Asian Development Bank (ADB) was established in 1966 with the aim of fostering economic and social development in the Asia and Pacific region. The bank was founded to promote regional cooperation and economic growth by providing loans and technical assistance to its member countries.

ADB’s first loan was granted to the government of the Philippines to fund a highway project in 1967. Since then, ADB has grown to become one of the leading development banks in the world, with 68 member countries, including 49 from the Asia and Pacific region. The bank’s headquarters are located in Manila, Philippines. Over the years, ADB has expanded its operations to cover various sectors, including infrastructure, private sector development, and environmental sustainability.

ADB has also been at the forefront of promoting social development, including education, health, and poverty reduction. In recent years, ADB has focused on supporting renewable energy and sustainable development initiatives to help mitigate the impacts of climate change. ADB’s history reflects its commitment to promoting inclusive and sustainable economic growth in the region, and the bank continues to play an important role in supporting the development efforts of its member countries.

Aims and Objectives of ADB

The aims and objectives of ADB are as follows

To promote economic and social development in Asia and the Pacific region.

To help reduce poverty in its developing member countries.

To help its member countries achieve sustainable economic growth and regional cooperation.

To provide loans, technical assistance, grants, and other forms of development assistance to its member countries.

To promote environmentally sustainable development.

To support private sector development and private sector-led growth.

Programs and Projects of ADB

ADB’s programs and projects are diverse and cover various sectors to support its mission of promoting economic and social progress in the Asia and Pacific region. Infrastructure development is a significant focus area for the bank, and it provides funding for transportation, energy, water supply, and sanitation projects.

ADB also supports the development of small and medium-sized enterprises through technical assistance, training, and direct lending. The bank also supports environmental sustainability initiatives, including promoting renewable energy, energy efficiency, sustainable transport, climate change mitigation and adaptation, and natural resource management. ADB’s projects also focus on human development, including support for education, health, and social protection.

Furthermore, ADB supports regional cooperation and integration through cross-border infrastructure projects and trade facilitation. ADB’s governance and institutional development programs support the development of sound economic policies, public sector management, and the rule of law.

The bank’s projects aim to promote inclusive and sustainable development, reduce poverty, and create jobs, particularly among vulnerable groups, such as women and marginalized communities. Overall, ADB’s programs and projects cover a broad range of sectors and aim to support the bank’s mission of promoting sustainable economic growth and regional cooperation in Asia and the Pacific.

Evaluation and Impact of ADB

ADB conducts regular evaluations of its programs and projects to assess their impact and effectiveness. Independent evaluators assess the ADB’s projects and programs to determine their success in achieving their intended outcomes and to identify areas for improvement.

The ADB also conducts surveys and studies to assess the impact of its programs on poverty reduction, environmental sustainability, private sector development, and other key development indicators.

The ADB’s impact is often measured in terms of the number of people who have benefitted from its programs, the economic growth that has been stimulated, and the improvement in social indicators such as education and health.


In conclusion, the Asian Development Bank has played a significant role in promoting sustainable development in Asia and the Pacific region. ADB has provided financial and technical support to its member countries to help reduce poverty, improve infrastructure, and support economic growth.

Despite the challenges that remain, ADB’s commitment to sustainable development and its strong partnerships with governments, civil society, and the private sector position it as a key player in promoting inclusive and sustainable development in Asia and the Pacific.


Q1. What kinds of projects does ADB finance?

Ans. ADB finances a wide range of projects, including infrastructure development, support for small and medium-sized enterprises, environmental sustainability, human development, regional cooperation and integration, and governance and institutional development. ADB’s portfolio includes projects in transportation, energy, water supply and sanitation, education, health, and social protection, among others.

Q2. How does ADB support environmental sustainability?

Ans. ADB supports environmental sustainability through its projects and programs by promoting renewable energy, energy efficiency, sustainable transport, climate change mitigation and adaptation, and natural resource management. ADB also helps countries develop policies and strategies to reduce greenhouse gas emissions, protect biodiversity, and improve water and waste management.

Q3. How does ADB work with the private sector?

Ans. ADB works with the private sector in a variety of ways, including through direct lending to private companies, support for public-private partnerships, and technical assistance for private sector development. ADB also promotes policy and regulatory reforms to create a more favorable business environment and attract private investment. ADB’s private sector operations aim to stimulate economic growth, create jobs, and promote sustainable development.

What Is The Full Form Of Amie

What is AMIE?

AMIE stands for Associate Member of the Institution of Engineers. It is a professional certification program in the field of engineering that enables engineering professionals to obtain a degree-level qualification in engineering. AMIE is equivalent to a bachelor’s degree in engineering and is recognized by the Government of India and many other countries around the world. AMIE is designed for working professionals who are unable to attend regular college due to work or other commitments. The program is available in various streams of engineering and covers a broad range of topics in the chosen stream. AMIE is a distance education program, which means that students can pursue it from anywhere in the world, at their own pace, without the need to attend regular classes.

Eligibility for an AMIE

To be eligible for AMIE, candidates must fulfill certain academic and professional requirements. These requirements are as follows −

Academic Requirements

10+2 (or equivalent) with Physics, Chemistry, and Mathematics as main subjects

A three-year polytechnic diploma in engineering (after 10th standard) or a four-year diploma in engineering (after 10+2)

A degree in science (B.Sc.) with Mathematics as a subject

Professional Requirements

Working professionals who have completed a minimum of 3 years of work experience in the engineering field after passing their 10+2 or polytechnic diploma in engineering are also eligible for AMIE. The work experience should be in a relevant field of engineering, and the candidate must be working in a reputed organization.

Non-working professionals who have completed a minimum of 4 years of work experience in the engineering field after passing their 10+2 or polytechnic diploma in engineering are also eligible for AMIE. The work experience should be in a relevant field of engineering.

Candidates who fulfill the academic and professional requirements can apply for AMIE. They must fill the application form and pay the required fees to become a member of the Institution of Engineers (India). Once the application is accepted, candidates can register for the AMIE program and begin their studies.

Overall, the eligibility criteria for AMIE are designed to ensure that candidates have the necessary academic and professional qualifications to pursue the program. This helps to maintain the standard and quality of education offered by AMIE and ensures that only qualified candidates are awarded the certification.

Responsibilities of AMIE

As a professional certification program, AMIE comes with certain responsibilities that its members must adhere to. These responsibilities are as follows −

Professional Requirements

Professional Conduct − AMIE members are expected to adhere to a high standard of professional conduct. They should conduct themselves in an ethical and professional manner, avoiding any actions or behaviors that could bring disrepute to the engineering profession.

Continuous Learning − AMIE members are expected to engage in continuous learning and professional development. They should stay up-to-date with the latest developments in their field of engineering and participate in relevant training and professional development programs.

Mentoring − AMIE members are encouraged to mentor and guide junior engineers and engineering students. They should share their knowledge and expertise with others in the profession and help to promote the growth and development of the engineering community.

Contribution to the Profession − AMIE members are expected to contribute to the engineering profession in meaningful ways. This could involve publishing research papers, presenting at conferences, participating in professional organizations, or serving on committees or boards related to the engineering profession.

Promoting Safety and Sustainability − AMIE members are expected to prioritize safety and sustainability in their work. They should take into account the environmental and social impact of their work and ensure that their projects are designed and implemented with the safety of all stakeholders in mind.

By adhering to these responsibilities, AMIE members can contribute to the growth and development of the engineering profession and help to ensure that it remains a respected and valuable field. These responsibilities also help to maintain the high standard of education and professional conduct associated with AMIE.


In conclusion, AMIE is a professional certification program that provides engineering professionals with a degree-level qualification. AMIE is designed for working professionals who are unable to attend regular college due to work or other commitments. The eligibility criteria for AMIE ensure that candidates have the necessary academic and professional qualifications to pursue the program, and the responsibilities of AMIE members promote ethical and professional conduct, continuous learning, mentoring, contribution to the profession, and promotion of safety and sustainability.

AMIE is a valuable program for engineering professionals who wish to enhance their skills, career prospects, and contribute to the growth and development of the engineering profession. The certification is recognized by the Government of India and many other countries around the world. Pursuing AMIE can provide numerous benefits to engineering professionals, including greater career opportunities, higher salaries, and improved job satisfaction.


Q1. What is the duration of the AMIE program?

Ans. The duration of the AMIE program varies depending on the stream of engineering and the pace of the student. Generally, it takes around 4-5 years to complete the program.

Q2. Is AMIE recognized by the Government of India?

Ans. Yes, AMIE is recognized by the Government of India as equivalent to a bachelor’s degree in engineering.

Q3. Can I pursue AMIE while working?

Ans. Yes, AMIE is designed for working professionals who are unable to attend regular college due to work or other commitments. It is a distance education program, which means that students can pursue it from anywhere in the world, at their own pace, without the need to attend regular classes.

Is Square The Future Of Mobile Payments?

Last week it was reported that Square, a mobile credit card reader, had opened its doors and was available for download in the app store. Square is the brainchild of Jack Dorsey, who is also co-founder of Twitter.

The app, when used in conjunction with a small card reader that plugs into the auxiliary port, allows anyone to process credit card payments. This takes “mobile payments” to a whole new level as now small businesses and vendors can process payments without the need for a wired or complex point-of-sale system.

All you need is a compatible device (iPhone, iPad, iPod touch, or one of select Android devices), the card reader, and a signal on your device.

So what does this mean for retailers and small businesses? Is it secure to use? And what about the cost? Will this be the new method businesses large and small use? Read more to find out…


Using Square is not terribly expensive. The mobile card reader is free when you are approved for a Square account, and the transaction fee is 2.75% + .15 to swipe. It’s slightly more if keyed in. There’s no start-up fee, monthly fee, minimum fee, early-cancellation fee, or any other bizarre and ridiculous fee. Transaction fee. That’s it!


When watching the demo video, the part I was most impressed with was the finger-based signature. Merchants can allay customer fears or hesitation by allowing them to hold the device, swipe it themselves, and then sign onscreen with their finger. They’ll see the transaction is complete, their information is secure (only the last 4 digits of the card will show), and they don’t need to worry. Receipts are sent immediately to their email.

Is it unreasonable to expect a jailbreak app designed to clone or retain the swiped info? Maybe not, but do thieves really want to go through the hassle of creating some kind of “business” with items or services to sell so they can dupe people into swiping their card on a phone? I run a small business, and honestly it sounds like a lot less work to learn how to pickpocket.


Obviously, this is Square’s strongest selling point. This is a truly wireless and simple solution to credit card processing. Further, it doesn’t just make accepting credit cards easier, in some cases it makes it possible when it wasn’t before.

Think of festivals and street fairs, places where cash-only is the norm. They can now turn a bigger profit by snagging those customers that don’t carry cash or forgot to stop by the ATM (or maybe are too cheap to pay that $3 withdraw fee!)

But it’s not just small businesses and vendors that could benefit, I imagine larger companies can, too. Apple stores are a great example of mobile payment, with their own card reader and device to process payments on the spot. Now other retailers can trial out this system using Square.

It may not happen in your local department stores, but perhaps seasonal retailers that set-up shop temporarily or sell door-to-door can make use of Square’s simplicity. Maybe in the future, Square will grow to include a barcode-scanning system and inventory count for retailers.

The Downsides

Square is still an app, and apps still crash or have bugs. Already Square’s pushed out an update to resolve some issues. And it might be discouraging to think of lost revenue or customers because AT&T’s network is having a grumpy day or your business is in a weak reception area.

And of course, phones are lost every day, which could compromise security. And then there’s the fact that Square is only as good as your device’s battery. Better keep that cord handy and make sure an outlet’s nearby.

But most of these downsides can be avoided or remedied easily. Find a bug? Let Square know. Bad reception? Invest in a Microcell. Lost your phone? Good thing you had a passcode that was set to erase the data after 10 failed attempts. (You did think to do that, right?) Didn’t charge your battery? Well then you shouldn’t be running a business because you don’t know how to plan! (I kid, I kid.)

Is This the Future?

Mobile payment processing is no doubt catching on and building buzz. Paypal has their options, and I think the field is bound to get more crowded. Crowded means competition, which is usually a good thing.

I own a small business that sells clothing at local festivals, and I have used the bank’s merchant payment processing system. It’s a cumbersome and expensive tool, and the cost hasn’t really been worth the benefit of being able to accept credit cards. Square is a greatly welcome alternative. I can’t wait to try it out.

Adalend On Cardano Is The Future Of Defi

As part of the Cardano ecosystem, ADALend builds a scalable and decentralized lending protocol, which the Cardano community will regulate.

A new generation of flexible financial services for digital asset markets will be powered by the ADALend protocol, which will provide a foundation for speedy loan approval, automated collateralization, trustless custody, and liquidity in the digital asset markets.

Why Cardano?

Cardano (ADA) is a blockchain platform with various capabilities that will power the ADALend protocol. To produce a scalable, transparent, and resilient cryptocurrency, Cardano (ADA) uses cutting-edge technology. The fact that it is a publicly accessible blockchain network makes it one of the many well-known cryptocurrencies that have grown and developed rapidly in recent years. With Input Output Hong Kong (IOHK), Charles Hoskinson laid the framework in 2023 for what is unquestionably the most vital third-generation blockchain asset now available on the market.

A well-organized team is in place at Cardano (ADA), and the company has a clearly defined plan for the future development of the company’s projects. With its colossal scalability potential and the ability to construct decentralized applications, the blockchain is a robust technology that satisfies future demands in many fields.

ADALend heats the DeFi Space

ADALend chose Cardano as the primary blockchain that will power the DeFi system, unlike Ethereum based AAVEbecause Cardano is significantly less expensive to send, receive, and initiate contracts. In 2023, the price of Ethereum gas surged, causing dissatisfied users to realize that fees were a serious concern for everyone who used the AAVE protocol at the time.

It has been reported that the average transaction cost in 2023 and 2023 went as high as 80 USD in some circumstances (BitInfoCharts). Cardano fees remain low compared to other cryptocurrencies, primarily due to the dual-layer design of the network, which isolates calculations from settlements.

Because it still employs a Proof-of-Work (PoW) blockchain, the Ethereum network is still inefficient compared to the Cardano blockchain, which uses a Proof-of-Stake (PoS) system, which follows the same fees principles as the Ethereum network. Compared to the Ethereum blockchain, the Cardano blockchain enables the processing of a significantly greater number of transactions. The Cardano blockchain operates at a considerably faster rate. To make auditing as simple as possible, the Cardano codebase is being created in Haskell, a widely-used programming language chosen explicitly for this purpose.

A particularly specialized programming language, Solidity, was created by Ethereum developers and is only written by a small number of programmers, let alone subjected to rigorous peer review. The greater the number of engineers who can examine and audit code, the more safe and impenetrable the system will appear to be. To put it another way, the Cardano developers want the blockchain to be as free of code flaws as possible to prevent future security risks from occurring.

ADALend will leverage the oracles Chainlink and Ergo to provide a more secure and efficient experience for clients. Using Ergo’s oracle pools is more efficient and configurable than Chainlink’s oracle architecture, which relies on many single oracle data sources. AAVE solely makes use of Chainlink oracles.

Cardano makes use of the Ouroboros consensus algorithm, which is a Proof-of-Stake consensus system. Due to the ability of ADA holders to delegate their assets to secure the network, this closed-loop approach maximizes the efficiency with which network resources are utilized. The outcome is a significantly less resource-intensive system than Ethereum, primarily powered by miners who consume a lot of energy to protect the network, consuming vast quantities of electricity in the process.

The Microscopic Future Of Surgical Robotics

The NeuroArm, a non-ferrous microsurgical robot—shown here with an electrified cutting tool and suction instrument—was used to remove a patient’s brain tumor in 2008, while she was being scanned with an MRI. University of Calgary

Chances are, you aren’t, and never will be, an astronaut. So the recent revelation that NASA is funding the development of a somewhat gruesome-sounding surgical bot—a fist-size contraption that would enter a patient’s gas-engorged abdomen to staunch bleeding or remove a ruptured appendix—isn’t exactly news you can use. The more relevant announcement might be from Intuitive Surgical, which announced that its newest robo-surgeon has been approved by the FDA. With thinner and more maneuverable arms, the da Vinci Xi will turn more open surgeries into minimally-invasive, robot-assisted procedures. Instead of requiring large incisions to get at various portions of a patient’s anatomy, the Xi will let surgeons reach essentially anywhere in the abdomen through smaller less traumatic punctures. With this clearance, the likelihood that you’ll one day be under the robotic knife just jumped significantly.

This is the near-term for robotic surgery, a gradual expansion of machines throughout the body, and through the full range of possible procedures. In addition to the da Vinci’s primary focus on the abdomen, bots are currently aiming drills in the brain, reshaping joints, and using lasers to correct vision. But the future of surgical bots appears be in some of the most challenging and specialized operations: microsurgery, or surgeries performed at a microscopic scale.

“Right now all of the operations we do are on the scale of human eyes and human hands,” says Catherine Mohr, director of medical research for Intuitive Surgical, referring to da Vinci-assisted procedures. “That’s because traditionally, medicine has been the laying of hands of the physician onto the patient, and trying to intervene. But we may be able to get that patient that much better an outcome because we’ve changed the scale of that interaction with robotics.”

It’s not that microsurgery is unheard of today. The issue is that, despite the fact that microscope-enabled surgery has been practiced for close to a century, it’s such a remarkably difficult and specialized skill, that the spectrum of related procedures is vanishingly narrow. And when those operations are possible, the waiting list for qualified surgeons can stretch for up to a year.

Robots, however, could turn more surgeons into microsurgeons, by translating large movements into minuscule ones. “Think about working in Photoshop, and you’re zoomed way in, working a pixel at a time on an image,” says Mohr. “Your mouse motions are still comfortable motions with your hand, but the scale that you’re working at is completely different.”

Microsurgery wouldn’t replace traditional surgeries, but could help solve specific problems. One example—though Mohr noted that it isn’t FDA approved, or backed up with overwhelming clinical data—would be treating breast cancer patients, who often suffer severe swelling and pain in their arms and hands following the removal of lymph nodes. This condition, called lymphedema, is caused by the disruption of natural drainage channels, meaning that blood isn’t flowing properly back through the patient’s system. Redirecting blood flow is theoretically possible, but incredibly challenging, as surgeons try to sew tiny vessels that are only barely visible under a microscope. “I’m excited that, if I can change that scale, for someone who’s got this terrible edema, we could start sewing their lymphatic channels onto the local veins, and drain it,” says Mohr. “So instead of spending their lives with compression stockings on their arms, we can go in and do a small intervention and fix it.”

For Intuitive Surgical, microsurgery is a target for research, but not a confirmed direction for development. But a microsurgical robot built by researchers at the Eindhoven University of Technology in the Netherlands is currently in clinical trials, with results expected by 2024. The unnamed bot is operated with dual joysticks and a foot pedal that adjusts the scale. It’s initially intended for complex reconstructive procedures in the hand and face, offering increased precision for microscopic procedures, such as connecting nerve fibers and tiny blood vessels.

The NeuroArm, a robot that can perform micro-scale neurosurgery while a patient is undergoing an MRI, has already been used in Canada to remove a 21-year-old patient’s brain tumor. The bot, which uses non-ferrous materials (to avoid interacting with the MRI’s magnets), was acquired by surgical imaging firm IMRIS, and has since been rebranded as the SYMBIS Surgical System. SYMBIS isn’t available for sale yet, but IMRIS already sells specialized MRI systems, which allow for scans mid-procedure. Once it’s cleared for use, SYMBIS would allow the surgeon to image the patient’s brain without removing instruments.

There are other examples of microsurgical bots currently in development, including Johns Hopkins University’s Steady-Hand Eye Robot, which deals solely with retinal procedures, and Carnegie Mellon University’s Micron, a handheld robotic instrument that would use gyroscopes and actuators to actively boost the precision of the surgeon. All of these systems are years and possibly decades from use, if they make it to market at all. But Intuitive Surgical’s interest in microsurgery is a clear indication of what’s to come. Despite a series of lawsuits leveled at the company in 2013, and the subsequent negative media coverage and pummeling in the stock market, Intuitive is the biggest maker of surgical robots, and one of the driving forces in the entire robotics industry, with systems that routinely sell for more than $2M, and more than 200,000 da Vinci procedures conducted yearly. And according to Mohr, adding micro-scale capabilities might not require entirely new robots, but rather new instruments and other modular components that would attach to some portion of the more than 2500 da Vinci’s already installed worldwide.

For us prospective patients, it doesn’t necessarily matter who makes microsurgery more accessible. What matters is that it’s coming. “We as a medical community haven’t made a lot of therapies that require that kind of super microscopic view and manipulation, because those are at the limit of what the human hands can do at unscaled motion,” says Mohr. “But if we kind of break that barrier, I think it will unleash a lot of new therapies that will have profound effects on patients’ lives.”

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