Category Archives: technology

agriculture, biology, gardening, science, technology

How sound waves can affect plant growth

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**How Sound Waves Can Affect Plant Growth**
*By Simran Jeet | Sep 22, 2025 | 01:43 pm*

### What’s the Story?

Sound waves have long fascinated scientists and gardeners alike for their potential effects on plant growth. Although it might sound unusual, emerging research suggests that sound waves can influence how plants develop. In this article, we explore the science behind sound waves and their possible impact on plant growth. By delving into this intriguing topic, we aim to provide insights into how sound waves could benefit gardening and agriculture.

### The Science Behind Sound Waves

Sound waves are vibrations that travel through air or other mediums. When these waves reach plants, they may trigger physical and chemical changes within them. Such changes could affect vital processes like photosynthesis and nutrient absorption.

The frequency and intensity of the sound waves play a crucial role in determining their effects on plant growth. Different sounds can cause different reactions, making it important to understand how sound interacts with living plants.

### Positive Effects on Plant Growth

Several studies have indicated that exposure to certain sound frequencies can promote seed germination and root development. For example, low-frequency sounds might stimulate cellular activity, encouraging faster growth rates.

Furthermore, some researchers suggest that specific musical genres might enhance plant vitality by creating a more favorable environment for growth. This opens up exciting possibilities for using sound as a natural growth enhancer in agriculture and gardening.

### Potential Drawbacks of Sound Exposure

While sound waves may offer benefits, excessive or inappropriate exposure can harm plants. High-intensity sounds have the potential to cause stress or physical damage to delicate plant tissues.

Therefore, it is vital to choose the right type of sound and carefully monitor its effects. Avoiding high volumes and prolonged exposure will help prevent negative outcomes and ensure plants remain healthy.

### Tip 1: Practical Applications in Gardening

For gardeners interested in experimenting with sound waves, it’s best to start with gentle, appropriate frequencies and limit exposure times. Playing soft background music or nature sounds can be a safe and enjoyable way to test this approach without overwhelming your plants.

Regular observation is key—monitor your plants closely to see if sound exposure is improving growth or causing stress. With patience and care, sound waves could become a valuable addition to your gardening toolkit.

Explore the fascinating connection between sound and plant growth, and discover new ways to nurture your garden naturally!
https://www.newsbytesapp.com/news/lifestyle/how-to-make-plants-thrive-with-sound/story

business, policy, technology

Indian Tech Industry To Enhance Local Skilling, Hiring In US: Nasscom

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The Indian IT and tech industry is investing more than $1 billion in local upskilling and hiring within the United States, marking a significant increase in the number of local hires, according to the industry’s apex body, Nasscom.

Over the years, Indian and India-centric companies operating in the US have significantly reduced their reliance on H-1B visas, steadily boosting their local hiring efforts. “Moreover, with the fee being applicable from 2026 onward, companies have time to further enhance skilling programs in the US and increase local hiring,” Nasscom noted.

Data shows that the number of H-1B visas issued to leading Indian and India-centric companies has dropped from 14,792 in 2015 to 10,162 in 2024. Nasscom added, “H-1B workers for the top 10 Indian and India-centric companies constitute less than 1 percent of their entire employee base. Given this trajectory, we anticipate only a marginal impact for the sector.”

The H-1B visa is designed for high-skilled worker mobility and serves as a non-immigrant visa that helps bridge critical skill gaps in the US labor market. Salaries for H-1B workers are on par with local hires, and H-1B workers represent only a very small fraction of the overall US workforce.

“Nasscom has consistently advocated for predictable and stable skilled talent mobility frameworks, which are essential for sustaining national competitiveness and have long fueled US innovation and economic growth,” the industry body said. Skilled talent mobility, it emphasized, is central to enabling businesses to make forward-looking investment decisions, accelerate research, and strengthen nations’ positions in the global innovation economy.

On September 20, the White House issued clarifications regarding the recent proclamation introducing a $100,000 annual fee on H-1B visa applications. The clarification confirmed that this new fee will not affect current visa holders and will be applied as a one-time fee only to fresh petitions. This announcement has helped resolve immediate ambiguities surrounding eligibility and timelines, while also alleviating concerns about business continuity and uncertainty for H-1B holders currently outside the US.

*Disclaimer: This story is from a syndicated feed. Only the headline has been changed.*
https://www.freepressjournal.in/tech/indian-tech-industry-to-enhance-local-skilling-hiring-in-us-nasscom

energy, environment, industry, renewable energy, technology

Turning Frozen Tuna Into a New Energy-Saving Business

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This initiative is attracting attention for its potential to work in tandem with demand response programs, which are viewed as key to a renewable energy era.

Demand response refers to a system in which electricity users adjust their power usage in response to supply conditions, helping balance the grid when renewable sources such as solar and wind fluctuate.

In this trial, frozen tuna act like an ice pack within the storage facility. Even when the refrigeration system is briefly stopped, the interior temperature remains stable thanks to the thermal mass of the fish.

By lowering consumption during peak times, operators can effectively sell their adjustment power to the market and receive compensation in return. Industry experts say this model could open the door to a new business opportunity in energy conservation.

If implemented on a larger scale, warehouses and food processors storing frozen products could become participants in the power market—not only saving energy but also generating revenue.
https://newsonjapan.com/article/146964.php

apple, design, manufacturing, smartphones, technology

iPhone Air gives a sneak peek at Apple’s upcoming foldable

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**iPhone Air Gives a Sneak Peek at Apple’s Upcoming Foldable**

*By Akash Pandey | Sep 21, 2025, 06:30 PM*

Apple’s much-anticipated foldable iPhone, expected to launch next year, might resemble two iPhone Air devices placed side by side. This insight comes from Bloomberg’s Mark Gurman in his latest Power On newsletter.

### Design Speculation: The iPhone Air Prototype

The design of the foldable iPhone has sparked speculation that the iPhone Air may have served as a prototype for Apple’s first foldable device. The thin, sleek look of the iPhone Air could be a precursor to the design language Apple plans to implement in its foldable phone. Reports indicate that the foldable model will feature a titanium chassis, making it a notable technical marvel.

### Manufacturing Insights: Production in China

Contrary to earlier reports suggesting production would start in India, Gurman’s report reveals that Apple will manufacture the foldable iPhone primarily in China, with at least some production continuing there.

### Pricing and Launch Schedule

The foldable iPhone is expected to be priced around $2,000 (approximately ₹1.66 lakh), with some earlier rumors indicating a price range between $2,100 and $2,300 (₹1.75 lakh to ₹1.91 lakh).

Apple is likely to launch the iPhone Fold alongside the iPhone 18 series in the fall of 2026, with an official unveiling anticipated in September. However, similar to previous launches like the iPhone X in 2017, the release could be pushed to October or November.

Stay tuned as Apple gears up to introduce what could be its most innovative iPhone yet.
https://www.newsbytesapp.com/news/science/apple-s-foldable-iphone-could-closely-resemble-iphone-air-design/story

apple, design, manufacturing, smartphones, technology

iPhone Air gives a sneak peek at Apple’s upcoming foldable

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**iPhone Air Gives a Sneak Peek at Apple’s Upcoming Foldable**

*By Akash Pandey | Sep 21, 2025, 06:30 PM*

Apple’s highly anticipated foldable iPhone, expected to launch next year, might resemble two iPhone Airs placed side by side. This intriguing insight comes from Bloomberg’s Mark Gurman in his latest Power On newsletter. The design is said to be a technical marvel, featuring a premium titanium chassis.

### Design Speculation: iPhone Air as a Prototype?

The sleek and thin design of the iPhone Air has sparked speculation that Apple may have used it as a prototype for its first foldable phone. Observers suggest that the lightweight, elegant look of the iPhone Air could hint at the aesthetic direction Apple is taking with its upcoming foldable device.

### Manufacturing Insights: Production to Begin in China

Contrary to earlier reports that production would start in India, Gurman’s report indicates that Apple will be manufacturing the foldable iPhone primarily in China, with at least some production occurring there. This aligns with Apple’s continued reliance on China-based supply chains for its flagship products.

### Price and Launch Timeline

The foldable iPhone is expected to start at a price of around $2,000 (approximately ₹1.66 lakh), though earlier reports suggested a price range between $2,100 and $2,300 (₹1.75 lakh to ₹1.91 lakh).

Apple plans to launch the iPhone Fold alongside the iPhone 18 series, likely in September 2026. However, the launch could be slightly delayed to October or November, following a pattern similar to past releases like the iPhone X in 2017.

Stay tuned as we get closer to Apple’s next big innovation!
https://www.newsbytesapp.com/news/science/apple-s-foldable-iphone-could-closely-resemble-iphone-air-design/story

apple, design, manufacturing, smartphones, technology

iPhone Air gives a sneak peek at Apple’s upcoming foldable

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**iPhone Air Gives a Sneak Peek at Apple’s Upcoming Foldable**

*By Akash Pandey | Sep 21, 2025, 06:30 PM*

Apple’s highly anticipated foldable iPhone, expected to launch next year, could resemble two iPhone Air models placed side by side. This intriguing design insight was shared by Bloomberg’s Mark Gurman in his latest *Power On* newsletter, suggesting the device will be a technical marvel featuring a titanium chassis.

**Design Speculation: Is the iPhone Air a Prototype for the Foldable?**

The sleek and thin profile of the iPhone Air has sparked speculation that Apple might have developed it as a prototype or a design precursor for its first-ever foldable iPhone. The concept hints at a future device combining portability with a larger screen experience, encapsulated in a premium, lightweight design.

**Manufacturing Insights: Made in China**

Contrary to earlier reports indicating production would start in India, Gurman’s report suggests that the foldable iPhone will primarily be manufactured in China. However, there will likely be “at least” some production happening in India.

Regarding pricing, the foldable iPhone is expected to launch with a starting price around $2,000 (approximately ₹1.66 lakh). Previous rumors placed the price slightly higher, in the range of $2,100 to $2,300 (roughly ₹1.75 lakh to ₹1.91 lakh).

**Launch Timeline: Fall 2026**

Apple’s foldable iPhone, tentatively called the iPhone Fold, is projected to launch alongside the iPhone 18 series next fall, making September 2026 the most probable timeframe for its official unveiling. However, the launch window could shift to October or November, following patterns set by past iPhone releases such as the iPhone X in 2017.

As Apple continues to push the boundaries of smartphone innovation, the foldable iPhone could mark a significant milestone in the company’s product lineup, blending cutting-edge design with enhanced functionality. Stay tuned for more updates as the launch date approaches.
https://www.newsbytesapp.com/news/science/apple-s-foldable-iphone-could-closely-resemble-iphone-air-design/story

biotechnology, health, neuroscience, science, technology

Researcher develops method for protein-protein structure prediction

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A Nigerian researcher, Muinat Zubair, has developed an innovative method for predicting protein structure and protein-protein interactions by combining experimental and computational approaches.

Zubair made this discovery during her time as a graduate teaching and research assistant at Tennessee Technological University, USA, where she earned her MSc in chemistry. Speaking about her work, she explained that her research contributes to solving the protein folding problem—a challenge that has perplexed scientists for over 50 years.

“I used artificial intelligence software to predict the full-length structures and interaction between two mammalian enzymes,” Zubair said. These proteins are part of the larger mitogen-activated protein kinase (MAPK) pathway, which is activated in response to cellular stress. According to her, malfunction in this pathway worsens symptoms of several neurodegenerative diseases, including Alzheimer’s disease, Parkinson’s disease, and amyotrophic lateral sclerosis (ALS).

“Understanding the structures of these proteins and how they bind and activate each other will help us develop therapeutic targets to manage these diseases and improve outcomes for patients and their families,” she added.

Neurodegenerative diseases are increasingly becoming a global pandemic, affecting millions of people worldwide. Zubair highlighted that this number is expected to rise as the global population of older adults grows.

The steady-state kinetics of these proteins had never been studied prior to her research. Supervised by Dr. Xuanzhi Zhan, she determined their apparent Michaelis-Menten parameters through kinase assays and Western blot quantification.

In addition, Zubair predicted the full-length structures and protein-protein interactions using AlphaFold2 and AlphaFold-Multimer—two cutting-edge artificial intelligence tools designed to elucidate the structure and behavior of proteins and other macromolecules.

“Previously, X-ray diffraction studies had only solved the structures of the kinase domains of these proteins,” she explained. “However, prior research showed that other parts of the enzymes also contribute to binding and activation, emphasizing the need to predict the entire structure.”

To validate her findings, Zubair used additional computational methods. “I applied molecular dynamics simulations to test and confirm protein stability and performed protein frustratometer analysis, contact mapping, and other assessments on the interface between the docked proteins. The protein structures remained stable under simulated physiological conditions,” she noted.

Beyond pioneering kinetic data on the MAPK pathway, Zubair emphasized that the computational methods she employed could be applied broadly to study other proteins. Nevertheless, she acknowledges that computational results require validation through wet-laboratory experiments.

“That is the next stage of the project,” she said. “It involves site-directed mutagenesis and studying the other two isoforms of the enzyme to further validate our results.”

Originally from Iganna in Oyo State, Nigeria, Zubair grew up in Ibadan and earned her first degree in biochemistry from Ladoke Akintola University of Technology (LAUTECH), Nigeria. She is currently pursuing a doctoral degree in the highly selective Purdue University Interdisciplinary Life Science program (PULSe) and was awarded the prestigious Lynn Fellowship to support her PhD studies.

Looking ahead, Zubair expresses a strong commitment to advancing human health, particularly in the field of neurodegenerative diseases. “I find so much fulfillment knowing that I could potentially discover a druggable target or help improve our understanding of these diseases,” she said.
https://tribuneonlineng.com/researcher-develops-method-for-protein-protein-structure-prediction/

blockchain, business, cryptocurrency, investment, technology

How BFX Stacks Up Against BNB, TRON, Cardano, And Polkadot

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The crypto market in 2025 is buzzing with activity. Established projects are proving their staying power, while new entrants are offering investors opportunities for exponential growth. Among them, BlockchainFX (BFX) has emerged as one of the most talked-about presales of the year, raising millions in just weeks.

But how does it compare with market veterans like Binance Coin (BNB), TRON (TRX), Cardano (ADA), and Polkadot (DOT)? Here’s a closer look at five tokens shaping the market right now.

### 1. BlockchainFX (BFX): The Newcomer with Multi-Market Ambitions

BlockchainFX is currently in its presale phase, with over $7.7 million already raised. At just $0.024 per token, and a launch price of $0.05, early buyers are securing an immediate upside.

What sets BFX apart is its vision: a trading super app where users can swap between crypto, stocks, forex, commodities, and ETFs seamlessly. The token rewards holders through daily USDT payouts funded by platform fees. Half of all fees are shared with stakers, while buybacks and burns reduce supply.

Investors also gain access to exclusive perks such as the BFX Visa Card, Founders Club membership, and even NFTs. With its BLOCK30 bonus code, buyers currently get 30% extra tokens, making it one of the most attractive presale offers of the year.

If BlockchainFX delivers on its promise of bridging crypto with traditional finance, BFX could become one of the breakout tokens of this cycle.

### 2. Binance Coin (BNB): The Veteran Powerhouse

BNB remains one of the most dominant exchange tokens in the market. Tied directly to Binance, the world’s largest crypto exchange, BNB is used for transaction fees, launchpad access, staking, and DeFi integration.

In 2025, it broke through the $1,000 mark, cementing its place as a blue-chip crypto asset. The BNB Chain continues to evolve, with recent upgrades improving scalability and performance. Analysts remain bullish on its mid-term outlook, projecting prices between $1,200 and $2,000 as adoption grows.

While regulatory challenges around Binance present risks, BNB’s strong ecosystem ensures it remains a core holding for many investors.

### 3. TRON (TRX): The Quiet Performer

TRON has built its reputation on speed, low fees, and high transaction throughput. It is one of the most widely used blockchains for stablecoins, especially USDT, which drives enormous daily transaction volumes.

In 2025, TRON’s price hovers around $0.34, with forecasts projecting slow but steady growth to about $0.43 by 2030. Technical indicators show TRON trending bullish in the short term, with its moving averages sloping upward.

While it may not offer explosive gains, TRON remains a reliable blockchain with a loyal community and a strong use case in payments and stablecoin transfers.

### 4. Cardano (ADA): The Long-Term Builder

Cardano is known for its careful, research-driven approach. Its focus on peer-reviewed development has sometimes slowed adoption, but it has built a solid reputation as a secure and sustainable blockchain.

In 2025, ADA is trading below its all-time highs but continues to develop through upgrades like Hydra, which enhances scalability and transaction speed. Cardano has strong backing in regions like Africa, where it is involved in projects for identity and governance.

Price predictions for ADA are conservative but positive, with expectations it could move toward the $1.50 to $2.00 range in the next few years if adoption accelerates.

### 5. Polkadot (DOT): The Web of Blockchains

Polkadot stands out for its vision of connecting multiple blockchains through its parachain ecosystem. By enabling interoperability, it allows projects to build specialized chains while still communicating with the broader network.

This gives DOT a unique position in the market, as interoperability is seen as a key challenge for the future of Web3. In 2025, DOT trades in the $6 to $8 range, with forecasts suggesting a move toward $15 or more by 2026 if parachain adoption increases.

While Polkadot hasn’t captured mainstream attention like Ethereum or Solana, its technological foundation remains one of the strongest in the space.

### Final Thoughts

Each of these tokens represents a different aspect of crypto’s evolution.

– **Binance Coin** is the established leader with massive utility and proven value.
– **TRON** continues to shine quietly as the backbone of stablecoin transactions.
– **Cardano** pushes forward with its methodical development.
– **Polkadot** bets on interoperability as the key to the next phase of Web3.
– **BlockchainFX**, meanwhile, offers something new: a presale opportunity that combines the high-growth potential of an exchange token with the ambitious vision of bridging crypto and traditional finance.

With its staking rewards, buybacks, Visa card perks, and the generous BLOCK30 presale bonus, BlockchainFX could be one of the most interesting projects to watch in 2025.

**For More Information**
Website: X:
https://bitcoinethereumnews.com/tech/how-bfx-stacks-up-against-bnb-tron-cardano-and-polkadot/?utm_source=rss&utm_medium=rss&utm_campaign=how-bfx-stacks-up-against-bnb-tron-cardano-and-polkadot

defense, india, technology

Drones Made By MP’s Satna Boy Pass Test At Army Camp

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**Innovative Drone Project by Satna Resident for Indian Army**

Satna (Madhya Pradesh): Anshuman Shukla, a resident of the Kitaha area in Satna district, has developed two advanced drones for the Indian Army designed to neutralize enemy targets. These drones successfully passed testing at the campus of the 609 EME Battalion in Meerut district, Uttar Pradesh.

Currently, Anshuman is working on enhancing the drones’ operational range. Alongside him, his two friends, Abhijit Patel and Akhilesh Singh Rathore, are actively involved in the project.

The Government of India has announced that this initiative is part of **Operation Sindoor**, under which the manufacturing of these drones is underway. One drone is specifically built for attacking enemy positions, while the other is designated for post-mission damage assessment.

Anshuman, the son of contractor Anil Shukla, was inspired to develop these drones following the Russia-Ukraine conflict. He is pursuing a Bachelor of Engineering in Mechanical Engineering at the Institute of Engineering Technology, Indore.

The team handed over their project to Lieutenant Colonel Nitin Verma of the 609 Battalion. The development spanned from August 10 to September 5, during which the trio stayed at the army camp to complete the work.

Both drones are equipped with modern systems, featuring SIM cards that enable activation from anywhere in the world via Short Message Service (SMS). Currently, the drones have a maximum range of 20 km, a significant improvement over existing drones that typically have a 5 km range. Their top speed reaches 180 km/h.

Anshuman explained that the attack drone is designed to self-destruct after completing its mission to avoid capture. The surveillance drone, meanwhile, is fitted with a night vision camera to estimate damage inflicted on the enemy.

The drones boast a portable, lightweight design and were developed with a total expenditure of Rs 3 lakh. They take off from altitudes of 100-200 metres, keeping them below radar detection, and operate at a flying height of approximately 400 metres above ground level.

Each drone can carry between 2 to 4 kilograms of explosives, making them highly effective tactical tools for the battlefield.

This pioneering project marks a significant contribution from young innovators towards strengthening India’s defense capabilities.
https://www.freepressjournal.in/bhopal/drones-made-by-mps-satna-boy-pass-test-at-army-camp

competitions, education, technology

Indore: Over 1000 Students Participate In DAVV’s Internal Hackathon

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**IET DAVV Organises Internal Hackathon for Smart India Hackathon 2025 Selection**

Indore (Madhya Pradesh): The Institute of Engineering and Technology (IET), a part of Devi Ahilya Vishwavidyalaya (DAVV), hosted an internal hackathon on Saturday as part of the selection process for the upcoming Smart India Hackathon (SIH) 2025.

Students from various DAVV teaching departments—including IET, IIPS, the School of Data Science and Forecasting, and other University Teaching Departments (UTDs)—participated enthusiastically in the event. Out of 190 registered teams, each comprising six members, over 1,000 students presented innovative technical solutions.

A panel of 29 judges evaluated the projects. The panel included 11 industry experts and 18 faculty members from IET and other DAVV departments. Divided into 14 evaluation panels, the judges assessed the projects based on creativity, feasibility, and potential real-world impact, focusing on practical solutions to pressing problems.

“The hackathon featured a strong emphasis on addressing real-world problem statements, leading to the selection of several outstanding projects for their innovation and practical potential,” said Prof. Pratosh Bansal, Director of IET.

The event was expertly coordinated by Prof. Vaibhav Jain, the College SPOC for SIH 2025, with co-coordination support from Prof. Praveen Karma.

**Key Problem Statements Addressed**

Participants tackled challenges provided by various ministries and state governments under the following major themes:

– **Healthcare Data Management:** Developing secure and efficient systems for handling patient records.
– **Smart Traffic Management Systems:** Creating AI-driven solutions aimed at reducing congestion and accidents.
– **Cybersecurity and Phishing Detection:** Designing tools to promote safer internet usage.
– **IoT-based Agricultural Solutions:** Innovating smart irrigation and crop monitoring systems to support farmers.

The enthusiasm and creativity demonstrated by the participants underscore DAVV’s commitment to nurturing future innovators and equipping students to solve real-world challenges.

*Stay tuned for updates on the selected teams advancing to the Smart India Hackathon 2025.*
https://www.freepressjournal.in/indore/indore-over-1000-students-participate-in-davvs-internal-hackathon