Mega Manipur School initiates project “Waste to wealth” : 31st oct23 … E-Pao.net
Manipur missing arms a concern, can go to wrong hands: Assam Rifles DG The Indian Express
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Toyota recently unveiled its new EPU electric pickup truck, which is positioned as a strong competitor in the compact truck segment and challenges the dominance of the Ford Maverick. Toyota’s entry into the electric vehicle (EV) market with the EPU model demonstrates its commitment to sustainable transportation, differentiating itself from previous, less memorable attempts such […]
At first glance, the EPU’s dimensions are slightly smaller than the Maverick, but its design maximizes interior space to accommodate a larger battery pack, which is important for the U.S. market where space is valued. The truck features a sleek, modern design, lightweight materials and a versatile trunk that allows for more rear seat space than Ford counterparts. Unique to the EPU is the split tailgate design, increasing cargo area functionality.
The EPU marks a shift in design priorities: the focus is on maximizing passenger compartment space rather than the front trunk space common to other EVs. This design choice emphasizes Toyota’s commitment to practicality and passenger comfort.
Toyota’s EV offers a range of features to meet a variety of needs, from an all-wheel drive system for different driving conditions, an intelligent infotainment system to advanced safety systems. It also features a bi-directional charging system that turns the vehicle into a potential power source in emergency situations.
Despite its smaller size, the EPU’s interior design elements and availability are direct competitors to the Ford Maverick. What sets it apart, however, is the unique powertrain controls integrated into the center touchscreen and the option of a more powerful engine.
To surpass the Maverick, Toyota must offer an engine with more than 191 hp and 155 lb-ft of torque, as well as dual- or quad-engine options for increased performance. Traction and payload must also be competitive, which will require a sturdy frame and efficient cooling system.
Finally, the deciding factor is price. With the Maverick ranging in price from $24,995 to $39,945, Toyota must price the EPU competitively to attract buyers for whom value for money comes first.
The Toyota EPU electric pickup truck enters the market as a promising contender with an innovative design, feature set, and powerful potential. The success of this pickup truck will depend on its competitive pricing and ability to meet consumer demand for a versatile, efficient and affordable electric vehicle. Toyota’s bold move into the electric-powered truck segment signifies a significant step towards environmentally friendly transportation, and only time will tell how the market will respond.
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Note: Our content is meant to be entertaining and is fueled by the latest news, rumors and intriguing speculation.
Read more / Original news source: https://manipurhub.com/toyota-s-bold-move-the-epu-electric-truck-225/
Turbocharged cars have become increasingly popular in recent years, providing impressive power and efficiency. While many drivers are familiar with the basic concept of turbocharging, there are several lesser-known features and benefits that make these cars interesting. In this article, we’ll take a look at five lesser-known features of turbocharged cars. 1. Improved high altitude […]
Turbocharged cars have become increasingly popular in recent years, providing impressive power and efficiency. While many drivers are familiar with the basic concept of turbocharging, there are several lesser-known features and benefits that make these cars interesting. In this article, we’ll take a look at five lesser-known features of turbocharged cars.
One of the remarkable advantages of turbocharged engines is their exceptional performance at high altitudes. Conventional naturally aspirated engines lose power as they climb to higher altitudes due to decreased air density. Turbocharged engines, on the other hand, can maintain or even increase their power under such conditions. This makes turbocharged vehicles an excellent choice for those who live in or frequently travel to mountainous areas.
Turbocharging allows automakers to reduce engine displacement while maintaining or even improving engine performance. Small turbocharged engines can develop the same horsepower as more powerful naturally aspirated engines. This reduction in engine displacement not only improves fuel efficiency, but also reduces the overall weight of the vehicle, improving maneuverability and handling.
Turbocharged engines are renowned for their ability to transmit torque almost instantly. Unlike naturally aspirated engines, which require higher rpm to achieve peak torque, turbocharged engines deliver significant torque at low rpm. This provides sharp acceleration and responsiveness, making turbocharged vehicles enjoyable to drive, especially in urban traffic.
While turbocharged engines can provide thrilling dynamics, they can also deliver remarkable fuel efficiency when handled conservatively. With smaller engine displacement and the ability to deliver power on demand, turbocharged vehicles can save fuel in everyday driving, providing a pleasing combination of performance and economy.
Turbocharging technology has been developed to improve environmental safety. Turbochargers help reduce emissions by allowing smaller, more fuel-efficient engines to produce the same power as larger engines. In addition, smaller engines help reduce carbon dioxide emissions, making turbocharged vehicles a greener choice for environmentally-conscious consumers.
In conclusion, turbocharged vehicles offer a number of benefits beyond increased power. From impressive high-altitude performance to the potential for improved fuel efficiency and reduced emissions, these vehicles continue to be a driving force in the automotive industry. As technology advances, we can expect to see even more hidden wonders in the world of turbocharging, further enhancing the driving experience.
Read more / Original news source: https://manipurhub.com/the-hidden-wonders-of-turbocharged-cars-223/
When it comes to a car, one of the key decisions a buyer faces is the choice of drivetrain. There are three main options: front-wheel drive (FWD), rear-wheel drive (RWD), and all-wheel drive (AWD). Each configuration has its advantages and disadvantages, and in this article, we’ll look at these types of drivetrains, their characteristics, and […]
When it comes to a car, one of the key decisions a buyer faces is the choice of drivetrain. There are three main options: front-wheel drive (FWD), rear-wheel drive (RWD), and all-wheel drive (AWD). Each configuration has its advantages and disadvantages, and in this article, we’ll look at these types of drivetrains, their characteristics, and when to consider each.
Front-wheel drive is a scheme in which engine power is transferred to the front wheels of the vehicle. This arrangement is known for its efficiency and is often found on compact cars, sedans, and many modern hatchbacks. Here are some key features of FWD vehicles:
In a rear-wheel drive vehicle, engine power is transferred to the rear wheels. Rear-wheel drive is often associated with sports cars and performance-oriented vehicles. Here are some key characteristics of rear-wheel drive vehicles:
All-wheel drive, as the name implies, sends power to all four wheels of the vehicle. AWD can be either full or part-time, and it is used on a wide variety of vehicles, from SUVs to performance cars. Here are some key features of vehicles with AWD:
Choosing between FWD, RWD, and AWD depends on a variety of factors, including your driving needs, local climate, and personal preferences. If fuel efficiency is important to you and you live in a mild climate, FWD may be an appropriate choice. On the other hand, if you are aiming for high performance or live in a snowy region, AWD or RWD with appropriate tires may be more appropriate.
In conclusion, the choice of drivetrain has a significant impact on the performance and capabilities of the vehicle. Understanding front-wheel drive, rear-wheel drive, and all-wheel drive characteristics will help you make an informed decision that fits your preferences and needs.
Read more / Original news source: https://manipurhub.com/front-wheel-drive-rear-wheel-drive-and-all-wheel-drive-vehicles-221/
The mysterious but true epidemic of windshield damage in 1954. Mass hysteria erupted after reports of windshield vandalism began to accumulate rapidly. The public can be aroused for a wide variety of reasons. These include outrage over what new color the school was painted, or bewilderment over potholes not being patched. However, few things escalate […]
The public can be aroused for a wide variety of reasons. These include outrage over what new color the school was painted, or bewilderment over potholes not being patched. However, few things escalate into mass hysteria. Unfortunately, that’s exactly what happened in 1954, when panic spread in the Seattle area and beyond over the sheer number of windshields with unexplained damage, a phenomenon dubbed the “Seattle Windshield Spot Damage Epidemic.”
The trouble began in March 1954, when residents of the small town of Bellingham, Washington, began noticing unexplained potholes, holes, and dents in the windshields of their cars. At first, police assumed it was the work of vandals armed with BB guns. However, as similar acts of vandalism spread to other cities, it became apparent that something else entirely was involved.
By mid-April, the “pitting epidemic” had reached Seattle, and local newspapers began reporting strange occurrences. Reports of damaged windshields became more and more numerous, and more and more people became convinced that their cars had fallen victim to the mysterious deviant. Motorists even began calling police cars to report damage, and parking lots and parking lots were flooded with similar claims of the most serious damage. In eight other states and even Canada, more and more reports of pitting began to appear.
The unexplained damage caused an impressive number of theories to emerge. Among them:
Radio waves: Some speculated that a new million-watt radio transmitter at the nearby Jim Creek Naval Radio Station might be responsible for the damage by powerful waves that caused physical vibrations in the glass.
Cosmic Rays: Others have speculated that cosmic rays, known as high-energy particles from outer space, were responsible for windshield damage.
H-bomb fallout: Some x3 wondered if the glass damage was caused by fallout from an H-bomb explosion. However, the only known cases of such explosions occurred in 1952 in the United States and then in 1953 in Russia.
Sand fleas: Most bizarrely, some people reported glass bubbles forming on their windshields before their eyes, and thought it was the work of sand fleas.
The situation escalated to the point that by April 15, about 3,000 windshields were reported damaged. Fearing a crisis, Seattle Mayor Allan Pomeroy appealed for help to Washington State Governor Arthur B. Langley, as well as to President Dwight D. Eisenhower. The biggest impact, however, was a speech by Seattle Police Crime Lab Sergeant Max Ellison, in which he explained that windshield reports are “5 percent hooliganism and 95 percent public hysteria.”
Just like that, starting April 17, the mass reports of dented windshields stopped. It turned out that, despite differing perceptions of why this was happening, the root cause was mass hysteria: as more and more reports became public, it heightened the reaction of those around them, who were (albeit subconsciously) looking out to see if they, too, were affected.
The epidemic of windshield pitting in Seattle has since become known as a classic example of collective delusion. Small potholes on windshields are not uncommon, caused by a variety of reasons such as rocks, animals, and general wear and tear. But it wasn’t until the media brought attention to the problem that people began to scrutinize their own windshields, noticing unprecedented damage on them.
For some time in the spring of 1954, Seattle residents were convinced that some unknown intruder or force had subjected their community to some sort of attack. Fear may have peaked for a while, but in the end it turned out that the main cause of all the turmoil was the depths of the human mind, which imagined far darker and more implausible causes than those that turned out to be the real cause: themselves.
Read more / Original news source: https://manipurhub.com/the-mysterious-but-true-windshield-damage-epidemic-of-1954-216/
Writer Ashley Vance’s biographical book Elon Musk: Tesla, SpaceX, and the Pursuit of a Fantastic Future focuses on the life, goals, and accomplishments of one of the most innovative and significant businessmen of our time. The book examines the intricacies of Musk’s life, his relentless pursuit of bold goals, and the impact of his projects […]
The biography is organized into several sections that trace Musk’s life chronologically from his formative years in South Africa to his entrepreneurial endeavors in the United States. In this in-depth overview, we will explore the main ideas of the book to help you better understand Elon Musk’s incredible journey and the significant impact he has had on society.
Part 1: Childhood in South Africa.
Already during his studies at the University of Pennsylvania, Musk showed signs of an entrepreneurial streak. In order to supply business guides and maps for publications, he founded Zip2 with his brother Kimball. Musk’s first real financial success came when Zip2 was sold to Compaq for about $300 million.
For the best experience of the book, I recommend purchasing the audiobook on Audible for free.
Part 2: Early Fortunes, PayPal, and X.com.
Musk became very wealthy as a result of PayPal’s merger with eBay, but it also signaled the beginning of his interest in spaceflight and a growing desire to find solutions to the world’s problems. He wanted to use his money for the future of humanity, as he believed that the Internet could be a huge tool for the development of society.
Section 3: SpaceX: Space Pioneer.
The biography demonstrates Musk’s ability to motivate and guide a diverse group of scientists and engineers to develop space technology. SpaceX’s accomplishments, including the Falcon 9 and Dragon spacecraft and the successful launch of the Falcon 1 rocket, demonstrate Musk’s commitment to making a difference in the aerospace industry.
Section 4: Tesla Motors: Transforming the Automotive Sector.
A recurring theme is Musk’s commitment to creating technologically advanced and environmentally friendly electric vehicles. Important turning points such as the introduction of the Roadster, Model S, Model X, and Model 3 are examined, as well as the difficulties Tesla faced in assembling and ramping up production.
Part 5: Hyperloop, SolarCity, and other things.
The biography also covers Musk’s marriages, his personal life, and the sacrifices he made to realize his lofty ambitions. According to Vance, Musk was a tough and determined leader who often faced opposition while remaining true to his principles.
For the best experience of the book, I recommend purchasing the audiobook on Audible for free.
Section 6: SpaceX and the flight to Mars.
To summarize:
From Musk’s story, readers can learn about the entrepreneurial spirit, perseverance in the face of adversity, and the power of unwavering determination. The book provides examples of how Musk’s endeavors not only revolutionized the industry, but also expanded the realm of conceivable outcomes in electric vehicles, renewable energy, and space exploration.
Ashley Vance’s biographical book is a must-read for anyone interested in creativity, technology, or entrepreneurship, as it offers a fascinating and motivating account of Elon Musk’s journey to building a magnificent future.
In conclusion, Elon Musk’s journey from his South African childhood to his current role as the visionary behind SpaceX, Tesla, and other pioneering endeavors is a timeless example of the limitless possibilities of human desire and ingenuity. Around the world, people and industries continue to be challenged and inspired by his story.
Read more / Original news source: https://manipurhub.com/elon-musk-tesla-spacex-and-the-pursuit-of-a-fantastic-future-by-ashley-vance-214/
The transition from internal combustion engine (ICE) vehicles to electric vehicles (EVs) is important for reducing greenhouse gas emissions from the transportation sector. However, this transition is highly dependent on the availability of reliable public charging infrastructure for electric vehicles. A recent Electric Vehicle Charging Data Performance & Reporting study by researchers at the University […]
The transition from internal combustion engine (ICE) vehicles to electric vehicles (EVs) is important for reducing greenhouse gas emissions from the transportation sector. However, this transition is highly dependent on the availability of reliable public charging infrastructure for electric vehicles.
A recent Electric Vehicle Charging Data Performance & Reporting study by researchers at the University of California, Berkeley, evaluated the functionality of public direct current fast charging (DCFC) stations in the San Francisco Bay Area using empirical on-site assessments.
The results show a significant gap between reported and actual charging reliability, highlighting the need to address the reliability of EV infrastructure. This report summarizes the methodology and key findings of the study, analyzes the main thesis of the gap between claimed and verified charger reliability, and reveals the implications of unreliable charging for drivers, businesses, and the transition to sustainable transportation.
The study evaluated all 181 publicly available DCFC charging stations in the greater Bay Area that included 657 combined CCS connectors. At each station, researchers attempted to initiate a charging session at each working CCS connector. A connector was considered serviceable if it charged a test EV for at least two minutes. The study found that only 72.5% of the 657 CCS plugs were serviceable, indicating a charger reliability of 72.5%. When you consider that the uptime claimed by EV service providers (EVSPs) is 95-98%, this is a significant shortcoming.
The researchers attributed the failed connectors to hardware and software failures, payment system failures, initialization failures, network connectivity issues, and connector damage. Subsequent evaluation showed little improvement in overall functionality, indicating inconsistent maintenance and problem resolution at DCFC public stations. The findings highlight the need for accurate uptime, reliable third-party verification, and increased transparency on the reliability of public electric vehicle charging stations.
The main thesis emerging from this study is that advertised EV charging uptime does not match actual reliability, which negatively impacts the experience of EV drivers. EVSPs claim 95-98% uptime for their networks, however, only 72.5% of plugs were found to be operational. This shows a discrepancy between the claimed and actual reliability of the chargers.
Several factors are likely contributing to this discrepancy. First, EVSPs may rely on internal diagnostics rather than empirical estimates, which can lead to missing hardware faults. Failures in the payment system may not be recorded as downtime. Temporary software failures that are resolved automatically are not counted in uptime metrics. Communication problems affecting payment initiation may not be recorded. Only sustained, system-detected failures can affect the reported uptime.
In addition, there is no universal definition of uptime or verification methodology. Metrics appear to focus on reported system failures rather than faults affecting the customer. Vague terminology such as “uptime” and inconsistent calculations allow EVSPs to report unrealistic reliability numbers. Without third-party validation, the reported uptime remains unreliable from the EV driver’s perspective.
In summary, the study revealed an alarming discrepancy between claimed and validated charger functionality, which is due to inadequate definitions, measurement approaches, transparency, and data validation. Addressing this problem requires accurate uptime standards, mandatory third-party audits, improved diagnostics and reporting, and changes in maintenance practices. Above all, charger reliability metrics must be aligned with the capabilities of EV users.
The unreliability of public charging infrastructure identified in this study has troubling implications on several fronts. First, drivers may experience range anxiety, the risk of grounding, and the inconvenience of faulty chargers, undermining confidence in electric vehicles. Second, businesses are increasingly relying on public chargers to serve customers and employees. Unreliable chargers create liabilities and discourage EV adoption. Third, unpaid charging caused by faults results in lost revenue for charger suppliers. Finally, charger defects lead to wasted electricity and slow emissions reductions. Together, these consequences emphasize the urgent need to improve the reliability of infrastructure for electric vehicles.
For drivers, failed charging attempts increase fears of running out of charge on the road. The industry recommends maintaining public charger reliability above 95% to ensure the reliability of long-distance electric vehicle travel. The 72.5% reliability rate found in this study could leave drivers stranded, making electric vehicle trips impractical. Moreover, unreliable charging delays stop times, causing delays and frustration. Such negative experiences create distrust of electric vehicles and discourage their mass adoption.
Businesses offering public charging also need high reliability. Office buildings, retail stores, and other locations install chargers to serve customers and employees. Faulty chargers lead to negative experiences and deprive businesses of benefits. Some establishments provide free chargers as a bonus, accepting the cost of wasted electricity use due to non-functioning devices. Unreliable equipment also incurs maintenance costs. These financial losses and customer inconveniences discourage businesses from supporting charging infrastructure.
At the same time, charging service providers lose revenue from unpaid sessions caused by technical and billing issues. Hardware malfunctions also incur hardware replacement and maintenance costs. Loss of electricity due to charger malfunctions represents an inefficient power supply, which is contrary to sustainability goals. From an environmental perspective, poor charger performance delays significant reductions in transportation emissions.
Overall, the consequences of poor charger reliability are multifaceted and affect key stakeholders in the EV ecosystem, as well as hinder the achievement of economic and environmental goals. Therefore, improving the reliability of public charging infrastructure is imperative.
The transition to reliable consumer-oriented charging networks requires a concerted effort by all stakeholders on several fronts. First, accurate consensus standards are needed to define and measure uptime from the EV user’s perspective. Second, mandatory third-party verification of uptime claims through on-site functional assessments will ensure accuracy. Third, charging networks should prioritize maintenance, problem solving, and infrastructure upgrades to maximize uptime. Fourth, advanced diagnostics and data analytics will proactively identify issues. Lastly, transparency and performance reporting will increase public confidence.
Commonly accepted uptime definitions based on successful customer charging, appropriate diagnostic customization, and regular external audits are important starting points for improving reliability. Charger suppliers should also optimize maintenance procedures and response times, minimizing station downtime. Challenges such as payment system failures should not be overlooked. Ongoing investment in infrastructure should improve resilience in both hardware and software.
Sophisticated monitoring, predictive analytics using artificial intelligence, and early detection of anomalies will further increase uptime. Transparency is equally important. Regular public reporting of performance that supports policymakers’ decisions is necessary for stakeholders to assess progress. With concerted efforts to implement these key strategies, electric vehicle charging networks will be able to achieve the high levels of reliability required for the widespread adoption of electric vehicles.
In conclusion, this study, conducted by researchers at the University of California, Berkeley, objectively assessed the reliability of chargers in the San Francisco Bay Area and found a significant gap between claimed and actual uptime. This indicates that the claimed reliability metrics do not match the actual functionality that impacts drivers.
Unreliable charging infrastructure is fraught with negative consequences
For confidence in electric vehicles, businesses providing charging services, charging network revenues and costs, electricity efficiency and progress in reducing emissions. Methodological improvements in uptime, measurement, transparency, diagnostics, and maintenance are needed for the transition to electric vehicles.
With coordinated efforts to develop specific strategies, electric vehicle charging infrastructure can achieve the high reliability performance required by the electrified transportation of the future.
This empirical study provides a valuable objective assessment of the current state of reliability, emphasizing the importance of accurate measurement and transparency along with technical improvements to realize the promise of seamless and sustainable electric mobility.
Daniel Davenport is an Atlanta-based automotive expert specializing in software-defined vehicles, connected mobility ecosystems, and smart manufacturing. With nearly three decades of experience, he is currently a Hybrid Network and Cloud Solutions Specialist at NTT and is an AWS Certified Cloud Specialist.
Read more / Original news source: https://manipurhub.com/reliability-of-electric-vehicle-charging-infrastructure-assessing-a-critical-factor-in-the-transition-to-sustainable-mobility-209/
From eternal learner to honking enthusiast. Do you ever feel like the road is a stage and every driver is an actor playing a part? Then buckle up! We’re about to take a humorous cruise through ten types of drivers you’re bound to encounter on the road. 1. The eternal learner. Characteristics: Eternal L-number, 20 […]
Do you ever feel like the road is a stage and every driver is an actor playing a part? Then buckle up! We’re about to take a humorous cruise through ten types of drivers you’re bound to encounter on the road.
Characteristics: Eternal L-number, 20 mph on a 60 mph road and a second driver with the patience of a saint.
Eternal Apprentice. They’ve been “learning” since the invention of the wheel. With them, every trip feels like a first. They are the human embodiment of a fawn taking its first steps on wheels.
Characteristics: Always has his finger on the horn, impatience personified, believes that the horn can change the traffic signal.
Why communicate with words when there is a honk? The honk enthusiast believes that you can express any emotion with a honk, from mild irritation to sincere joy.
Characteristics: Booming bass, an ever-changing playlist, and the belief that everyone should enjoy their music.
A mobile DJ who arrives with the latest hits, ensuring you hear their tunes before you see their car. Thanks to them, you know all the top 20 hits whether you want them or not.
Characteristics: Always driving in the fast lane, always below the posted speed limit.
They love the thrill of driving fast, but at a speed that would make a snail proud. Overtaking is a ritual for most drivers.
Characteristics: Coffee in one hand, phone in the other, steering wheel in your lap.
Who says you can’t eat breakfast, participate in a Zoom meeting, and drive at the same time? Certainly not multitaskers. They are redefining the term “hands-free”.
Characteristics: Believes his compact car is the size of a tank and parallel parking takes 20 minutes.
Every parking space is potentially suitable for the Parking Optimist. They are the reason you sometimes have to hold your breath and hope for the best when passing parked cars.
Characteristics: Rides at a contemplative pace, immersed in deep thought, perhaps pondering the meaning of life.
Why rush when you can drive and ponder? The road philosopher is on a journey, but not necessarily a physical one.
Characteristics: Believes indicators are optional, likes to keep other drivers guessing.
Left? Right? Straight ahead? Who knows! Rebel indicator adds an element of surprise to every trip.
Characteristics: Gives comments on the driving of others, a master of the “I would have done it differently” remark.
They drive, yet they judge everyone else’s driving. They note with some sixth sense all the minor infractions on the road.
Characteristics: Passionate performances at every stoplight, believes their car is a soundproof recording studio.
With vocals that range from “shower solo” to “the next big star,” Car Karaoke Star is on the road to stardom, passing one traffic jam at a time.
The road is theater, and every journey is a performance. From the slow ballad of Snail Racer to the energetic beats of Mobile DJ, every trip is a unique show. So the next time you find yourself on the road, take a moment to appreciate the variety of characters performing on the same stage as you.
Note: This article is a lighthearted look at driving and drivers. Always drive safely and responsibly!
Read more / Original news source: https://manipurhub.com/a-journey-through-the-types-of-drivers-207/
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Manipur: Man Abducted and Shooting of 39-Year-Old Man by Masked Assailants in Manipur – Sentinelassam The Sentinel Assam
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Read more / Original news source: https://news.google.com/rss/articles/CBMilwFodHRwczovL3d3dy5zZW50aW5lbGFzc2FtLmNvbS9ub3J0aC1lYXN0LWluZGlhLW5ld3MvbWFuaXB1ci9tYW5pcHVyLW1hbi1hYmR1Y3RlZC1hbmQtc2hvb3Rpbmctb2YtMzkteWVhci1vbGQtbWFuLWJ5LW1hc2tlZC1hc3NhaWxhbnRzLWluLW1hbmlwdXItNjczMTc40gEA?oc=5
Manipur: Media houses join forces for breast cancer awareness in Imphal East India Today NE
