Rivian and Lucid’s sharply divergent plans for EVs and Tesla’s warnings.

Electrified standoff: Rivian vs. Lucid in 2023. We’re diving into a wild ride called the electric vehicle (EV) stock showdown involving none other than Rivian and Lucid. These players have their sights set on the luxury portion of the electric vehicle market, but guess what? The plot twists when their paths turn sideways in the […]

Electrified standoff: Rivian vs. Lucid in 2023.

We’re diving into a wild ride called the electric vehicle (EV) stock showdown involving none other than Rivian and Lucid. These players have their sights set on the luxury portion of the electric vehicle market, but guess what? The plot twists when their paths turn sideways in the face of a bombshell in the form of a production plan for 2023. Let’s get to the bottom of it!

Prelude: Market hype.

Rivian stock soars on Tuesday night after a killer growth report. And Lucid? Well, let’s just say it’s not exactly a walk in the EV park: lower third-quarter earnings led to an overnight drop in the company’s stock.

Rivian’s triumph.


A. Revenue and outlook.

Rivian’s financial report? It’s like music to investors’ ears. Analysts expected a more modest loss, but boom, and Rivian shows revenue growth exceeding the SpaceX launch.

B. Production surge.

Late Tuesday, not only was the financial news released, but the breaking news was that Rivian plans to produce 54,000 electric cars in 2023, up from a modest 52,000 in August. Why? Well, progress on the production lines, proprietary motor magic and rosy supply chain prospects.

C. Strategic moves.

Hold on to your seats! Rivian reveals that its commercial electric vans will be available to more customers beyond Amazon. Now that’s what I call market power.

D. Stock Dynamics.

Despite a rocky October, including a drop in stock price, Rivian is back in the game. The stock is closing higher, reversing those horrendous October losses. Talk about a stock market tango!

The struggles of Lucid.


A. Falling profits and revenue.

Lucid’s financial report? Let’s just say it’s more of a stumble and fall scenario. A loss of 28 cents and a drop in revenue of almost 30%. Ouch! That’s like if they had a collision with a Tesla car.

B. Production realignment.

Facing the music, Lucid is adjusting its production plans for 2023, dropping from over 10,000 cars to a more modest 8,000-8,500. It’s as if the company is saying, “Let’s hit the brakes and move cautiously through the EV maze.”

C. Stock problems.

Lucid’s stock? Well, they didn’t exactly break the world record for limbo. Dropping even lower on the chart, they’re playing in the minor leagues, trading near historic lows.

The bigger picture: Global EV problems.

By and large, both Rivian and Lucid are playing their parts in a soap opera filled with global issues related to electric vehicles. Imagine auto giants, including Tesla, warning of slowing demand – it’s like the EV world is collectively suffocating.

Assessing the future: A look at Tesla’s warnings.

In this compelling drama, Tesla – a trailblazer – takes center stage. Elon Musk has blabbed that they are going to build an eco-friendly car in Germany. Now that’s a plot twist worth watching, especially when it comes to a cheap EV at a factory in Berlin.

6. RECAP concept unveiled.


A. Problematic plot points:

The Lucid money situation is like a roller coaster that goes up and down. The global slowdown in EV growth is like rain on a parade.

Look at Rivian – they’re not just sitting around sipping coffee. No, they’re diving headfirst into the electric van game as if to say, “Step aside, world, we’re here!”. And, mind you, they’re optimistic about how production is ramping up. It’s like they found a stash of energy drinks or something.

Anyway, Lucid juggles financial acrobatics and Rivian performs an electric boogie in vans and jumps from high up on production spikes. Not a bad show, right?

B. EV Drama Solutions:

Rivian shows off its financial muscle with positive results that probably make Wall Street dance with happiness. And they’re not stopping there – these folks are looking to the future with a production plan that feels like they’re aiming for the moon. Shooting for the stars, right?

Now let’s talk about Lucid. They don’t throw raucous parties. On the contrary, they’re realists, adjusting production like experienced DJs adjust beats to fit the rhythm of the market. It’s as if they’re saying, “Hey, we’re not here for the bright lights, we’re here for the real thing.”

C. Benefits for EV enthusiasts:

Rivian stock is on a winning streak, bringing much-needed optimism to the electric car circus. It’s like they’ve brought confetti to the party, and Wall Street is loving the show.

Now let’s talk about Lucid. These guys aren’t afraid to shake things up. They play 4D chess while the rest of us are stuck in checkers, strategically rebuilding their production like it’s no big deal. It’s like watching a professional poker player – calm, collected, not showing all their cards. These moves speak louder than a TED talk on business turnarounds.

D. Evidence in the EV courtroom:

Rivian’s stock is skyrocketing as if it just won the lottery of success. Such financial swagger makes you wonder if they hired financial wizards or just found a four-leaf clover.

And then there’s Lucid, a company that doesn’t play the “Pin the Tail on the Donkey” game blindfolded. No sir, they’re holding the wheel and making strategic moves that say, “We’re not here to ride, we’re here to own the electric car highway.” It’s like they’re playing chess while others are stuck in a game of Monopoly. Checkmate and checkmate, my friends.

Conclusion: Navigating the EV landscape.

On this roller coaster of emotions, Rivian and Lucid are the main characters, each navigating their own unique plot twists and turns. As Tesla adds its chapter to this saga, the EV world continues to spin, leaving us all on the edge of our seats. Stay tuned, because the drama in the EV world is far from over – it’s the plot twist that keeps the suspense going.

F.A.Q.


Question 1.

Q: What caused Rivian stock to surge late Tuesday?

A: Rivian’s stock rose sharply following the release of its earnings report, driven by impressive third-quarter revenue numbers that beat expectations.

Question 2.

Q: How has Lucid stock been affected by the change in production guidance for 2023?

A: Lucid’s stock was hurt when it lowered its 2023 production guidance after the third-quarter revenue decline was worse than expected.

Question 3.

Q: What strategic move has Rivian announced regarding its commercial electric vans?

A: Rivian announced plans to expand its commercial electric van customer base beyond its key customer, Amazon.

Question 4.

Q: What is the financial outlook for Rivian and Lucid, based on recent reports?

A: Rivian, despite a smaller-than-expected loss, reported strong revenue growth. In contrast, Lucid’s loss was 28 cents and revenue was down nearly 30%, indicating a more challenging financial environment.

Question 5.

Q: How has the stock market treated Rivian and Lucid against the backdrop of recent events?

A: Rivian shares continued to fluctuate, rising 3.3% in late trading, reversing earlier losses, but remaining below their 50-day and 200-day moving averages. On the other hand, Lucid shares fell 4.2% to close near historic lows, highlighting the challenges facing start-up EV companies.

Read more / Original news source: https://manipurhub.com/rivian-and-lucid-s-sharply-divergent-plans-for-evs-and-tesla-s-warnings-347/

The Road Ahead: Ford’s Mustang Mach-E Review.

When we talk about electric vehicles (EVs), the conversation often includes words about innovation, sustainability, and the future of transportation. However, even the most advanced technology is not immune to problems. Case in point: Ford’s recent recall of some Mustang Mach-E models due to possible overheating. Safety in the automotive world is still paramount, and […]

When we talk about electric vehicles (EVs), the conversation often includes words about innovation, sustainability, and the future of transportation. However, even the most advanced technology is not immune to problems. Case in point: Ford’s recent recall of some Mustang Mach-E models due to possible overheating. Safety in the automotive world is still paramount, and this recall underscores the company’s commitment to maintaining high standards and addressing problems from the start.

General information about the Mustang Mach-E model.

Since its introduction, the Ford Mustang Mach-E has attracted attention by combining the heritage of the iconic Mustang with advanced EV technology. Ford’s entry into the all-electric SUV market, the Mach-E has been praised for its performance, range and driver comfort. The availability of extended range batteries and options such as DC fast charging have made it a strong contender in an increasingly competitive market.

Understanding DC fast charging.

Before we get into the details of the recall, let’s touch on DC fast charging, which is the central feature of this issue. DC fast charging allows EV drivers to quickly replenish their battery power, adding significant range in minutes rather than hours. This convenience is important for long-distance travel and reducing EV owners’ anxiety.

Explanation of the overheating problem.

The crux of the recall involves the high-voltage battery contactors in certain 2021-2022 Mustang Mach-E extended-range and GT models. These contactors are prone to overheating, especially if they are subjected to stresses such as repeated DC fast charging sessions and aggressive driving with extensive pedal use.

Possible consequences of overheating:

  • Contactors may not close properly or may weld when overheated.
  • Failure to close disrupts the continuity of the electrical current, resulting in a sudden loss of power.
  • Conversely, if a contactor welds, it can result in a complete failure to start the vehicle.
  • Such scenarios not only pose a danger while driving, but also affect the overall reliability of the vehicle, something any car owner should take seriously.

    Ford’s response to the recall.

    Due to this issue, Ford has initiated a recall affecting approximately 34,762 vehicles equipped with the extended-range battery. The recall number is 23S56.

    Ford’s proactive measures:

  • Repair Process: The high-voltage battery junction box will be replaced on affected vehicles.
  • Cost: There will be no cost to vehicle owners for the repair.
  • Notification: Owners will be sent instructions on how to proceed between Oct. 30 and Nov. 10.
  • Compensation: Those who have already paid repair bills related to this problem will be reimbursed by Ford.
  • By taking this action, Ford is demonstrating its commitment to safety and customer satisfaction.

    Customer Impact and Support.

    The recall may understandably cause customer dissatisfaction, but owners of vehicles affected by the recall should understand that these measures are being taken in their best interest.

    Support Plans:

  • Ford will inform owners of vehicles affected by the recall as soon as repair parts are available.
  • To reduce inconvenience during the repair process, Ford plans to offer support, including rental cars and delivery/order services where possible.
  • For more information about the recall process and customer support options, visit Ford’s recall page.

    Preventing future problems.

    Until parts are available to repair the recalled vehicles, owners can take preventative measures:

  • Limit consecutive hard presses on the gas pedal.
  • Use DC fast charging only when necessary.
  • In addition, Ford intends to enhance software updates as an additional means of protection against overheating. Vehicle owners should be aware of these updates and install them in a timely manner when they become available.

    Commitment honored.

    A vehicle recall is not good news for either the manufacturer or the consumer, but it serves as a testament to the automaker’s commitment to safety and reliability. The proactive steps Ford has taken with the Mustang Mach-E underscores how seriously it takes its responsibility to its customers and highway safety. By offering free repairs and efforts to minimize inconvenience, affected electric vehicle enthusiasts can rest assured that they will have support for potential difficulties on the road.

    Looking to the future, this incident provides valuable insight into how harsh real-world operation can shape future EV designs and technologies. It reminds us that progress often comes with learning curves, but does not diminish our enthusiasm for what electric vehicles promise for our shared path to clean transportation. Together – manufacturers, owners, enthusiasts – we overcome these challenges and continue to move forward toward an electrified future with confidence that progress is yet to come.

    Read more / Original news source: https://manipurhub.com/the-road-ahead-ford-s-mustang-mach-e-review-345/

    New mission for Berlin’s Gigafactory: Creating Tesla’s dream of a $25k electric car.

    Tesla has long been synonymous with innovation and has been setting new standards in electric vehicles (EVs) since its inception. The company’s latest move – a plan to build a new, more affordable electric vehicle at the Gigafactory Berlin – marks a significant step forward in making sustainable transportation accessible to a wider audience. The […]

    Tesla has long been synonymous with innovation and has been setting new standards in electric vehicles (EVs) since its inception. The company’s latest move – a plan to build a new, more affordable electric vehicle at the Gigafactory Berlin – marks a significant step forward in making sustainable transportation accessible to a wider audience. The strategic pivot to produce a $25,000 electric car is pivotal not only for Tesla, but for the auto industry as a whole, serving as a potential catalyst for a seismic shift toward mass adoption of electric vehicles.

    Background: Pioneer of affordable electrification.

    Tesla’s trajectory has been nothing short of astounding. From the Roadster to the Model S and beyond, the company has continually pushed the boundaries of what electric vehicles can do. However, despite its successes, one barrier still remains: price. Affordable electric transportation has been an elusive milestone for Tesla and the entire industry.

    In previous years, CEO Elon Musk has hinted at the possibility of a cheaper Tesla car, but due to various difficulties, plans were shelved. Now, thanks to improvements in manufacturing technology and economies of scale, Tesla is finally ready to get down to the business of solving this problem.

    The next-generation car will cost $25,000.

    The planned next-generation car will cost around $26,800 (€25,000), breaking past price barriers without sacrificing quality and performance. Here’s what is known about this ambitious venture:

  • Target price: It is guaranteed not to exceed the proposed $25,000 mark.
  • Range and performance: While specific details are scarce, high range and specifications are expected.
  • Manufacturing Innovation: Introduction of “Unboxed Process” technology, where individual sections are machined individually before final assembly.
  • Production sites: The original plan was to move production at the Gigafactory in Mexico to the Gigafactory plants in Berlin and Texas.
  • Producing electric cars at such a low cost is a challenge, requiring a rethinking of manufacturing processes and supply chain efficiencies. However, if any company is capable of such success, it’s Tesla – with its history of defying expectations and disrupting norms.

    Gigafactory Berlin: The miracle of manufacturing.

    The Gigafactory Berlin is not just another factory, it will be a cornerstone of Tesla’s global strategy.

  • Location and capacity: The plant is located near Berlin, with plans to double capacity to 1 million cars per year.
  • Model Y production: Europe’s best-selling electric car is currently in production.
  • Environmental compliance: Plans to expand production are being scrutinized for compliance with environmental legislation.
  • This plant will play an important role in producing Tesla’s most affordable car, while showcasing advanced manufacturing techniques such as one-piece molding to make the underbody of the car.

    Impact on the automotive industry.

    The impact of the introduction of a $25,000 Tesla car could be very significant:

  • Market disruption: A high-end electric car at this price could upend traditional budget car markets.
  • Competitor reaction: Automakers around the world are likely to accelerate their strategies for affordable EVs.
  • Wider adoption: A cheaper entry point for EVs could significantly expand market size and accelerate the transition away from internal combustion engines.
  • Musk’s vision extends beyond just selling cars to catalyzing an era where renewable energy becomes mainstream. And with the average price of an EV in Europe set to exceed €65,000 in early 2023, the need for cost-effective alternatives couldn’t be more obvious.

    Conclusion: Moving towards an electric future.

    Tesla’s plan to produce a $25,000 electric car at its Gigafactory in Berlin is not just another product launch, it is a potential turning point in automotive history. By focusing on affordability without sacrificing quality and innovation, Tesla is not only expanding its customer base, but also inviting millions of people to participate in an eco-friendly future.

    While we await more details on the specifications and production timeline of the next-generation car, one thing remains certain: The automotive landscape is on the cusp of change. With Tesla leading the movement for electric vehicle affordability, we may soon see driving an electric car become not just a desire, but a reality for many.

    Read more / Original news source: https://manipurhub.com/new-mission-for-berlin-s-gigafactory-creating-tesla-s-dream-of-a-25k-electric-car-343/

    Emerging new electric Titan: 2025 Ram 1500 Ramcharger.

    There are some remarkable innovations emerging in the electric vehicle (EV) industry, and among the most anticipated developments is the 2025 Ram 1500 Ramcharger. This electric vehicle is a testament to the significant advances in EV technology, promising a combination of power, honed dynamics and unrivaled efficiency that will redefine the pickup truck segment. As […]

    There are some remarkable innovations emerging in the electric vehicle (EV) industry, and among the most anticipated developments is the 2025 Ram 1500 Ramcharger. This electric vehicle is a testament to the significant advances in EV technology, promising a combination of power, honed dynamics and unrivaled efficiency that will redefine the pickup truck segment. As an avid follower of EV technology advancements, I’m very enthusiastic about this model, especially given its unique approach to hybrid technology.

    Revolutionary powertrain.

    The core of the Ramcharger’s appeal lies in its innovative powertrain. It differs from traditional hybrids by having a range extender, a 3.6-liter V6 engine that isn’t directly connected to the wheels. Instead, it charges an on-board generator that powers a powerful 95-kilowatt-hour battery, providing a continuous supply of electricity to the truck’s drivetrain.

    The benefit is increased driving range.

    This sophisticated system offers a number of compelling advantages:

    Continuous operation of the V6 engine at constant rpm provides maximum efficiency while minimizing wear and tear. Recharging the battery while driving allows an unrivaled total range of up to 690 miles – a new standard for electric trucks. Given the experience of the BMW i3, which requires minimal maintenance due to infrequent use on daily trips, this feature seems even more practical for a truck designed for long trips and heavy hauling.

    Uncompromising Performance.

    Despite its fuel-efficient design, the Ramcharger does not compromise on power and dynamics:

    The Ramcharger is equipped with two electric drive modules (EDMs) that provide balanced traction: 335 hp at the front and 319 hp at the rear. This dual EDM setup ensures smooth and responsive handling. With a combined output of 663 hp and 615 lb-ft of torque, this electrified beast is capable of accelerating from zero to 60 mph in just 4.4 seconds-an impressive figure for a vehicle in any class, much less a full-size pickup.

    Maximum range and capability.

    In the world of electric trucks, range and capability are of paramount importance:

    With an electric range of up to 145 km, you can perform everyday operations without the use of gasoline. For more demanding tasks such as towing or hauling heavy loads, the Ramcharger boasts an impressive towing capacity of up to 14,000 pounds and a payload capacity of up to 2,626 pounds, proving its endurance and durability.

    Charging: Versatile and convenient options.

    Charging infrastructure is critical to the ubiquity of EVs. Here’s how Ramcharger addresses this challenge:

    Ramcharger supports a variety of charging options, including Level 1 for simple home charging Level 2 for faster charging at home or public stations, and fast constant current charging for those who need to recharge quickly during long trips. With support for up to 145 kilowatts of DC fast charging, drivers can increase their range to 50 kilometers in about 10 minutes – an invaluable feature for busy people and professionals who can’t afford long idle times.

    Design: A visionary combination.

    Aesthetically, the Ramcharger represents both heritage and innovation:

    It incorporates design elements from both classic Rams and their more forward-looking REV models, a combination that recalls the familiar yet emphasizes its cutting-edge character with details like unique taillights and a distinctive front grille profile.

    Technology-filled interior.

    Within the walls of the cabin is a sanctuary where luxury meets state-of-the-art technology:

    A huge touchscreen display totaling more than 24 inches provides convenient access to all vehicle functions. Smartphone integration allows you to use your device as your car key: unlock doors, start the engine and recall personalized settings via your cell phone.

    Advanced driver assistance features such as Hands-Free Active Driving Assist enhance safety and make long trips less tiring, providing peace of mind no matter where you go.

    Protect your piece of electric innovation.

    As anticipation builds for this revolutionary model, pre-ordering is simple, but very quick:

    Prospective owners should go to RamRev.com and join the promotion by paying a $100 membership fee, which is refundable until notified that the pre-order is ready.

    Members receive early access privileges to the Ram Revolution Insiders+ Offer Program – invitations to events and exclusive information on upcoming electrified Rams.

    Hurry – the program expires December 31, 2023!

    Built on a solid foundation: the STLA Ram Platform.

    At the heart of the Stellantis is the modular STLA Frame platform:

    Its modularity shows that Stellantis sees the future of vehicle design adaptation.

    The liquid-cooled battery pack, securely positioned between the frame rails, enhances the stability and safety of the vehicle.

    Trim levels to suit all tastes.

    From the workhorse Tradesman to the luxurious Tungsten, the choice is yours when it comes to which version best suits your needs or desires.

    Final Thoughts: A truck evolution that exceeds expectations.

    The upcoming Ramcharger isn’t just the debut of another EV – it represents a pivotal change in design philosophy for utilitarian vehicles, combining practicality with environmental stewardship without sacrificing capability and fun behind the wheel.

    While we wait with bated breath for pricing details as we get closer to a late 2024 release date, one thing is clear: Ramcharger isn’t just joining the existing market – it’s poised to completely redefine it.

    Read more / Original news source: https://manipurhub.com/emerging-new-electric-titan-2025-ram-1500-ramcharger-341/

    Electric car debate: Toyota and Tesla clash over Australia’s future.

    There is an intense rivalry between Toyota and Tesla in the Australian automotive sector, not only for market share but also for opposing views on the future of transportation in the country. Toyota skepticism. Sean Hanley, Toyota’s head of sales, recently expressed doubts about the practicality of EVs in Australia, citing limited charging infrastructure, high […]

    There is an intense rivalry between Toyota and Tesla in the Australian automotive sector, not only for market share but also for opposing views on the future of transportation in the country.

    Toyota skepticism.

    Sean Hanley, Toyota’s head of sales, recently expressed doubts about the practicality of EVs in Australia, citing limited charging infrastructure, high battery costs and the carbon footprint of coal-fired electricity. Instead, Hanley advocates the use of hybrid vehicles as a pragmatic option, believing they are more suited to Australian conditions.

    “Hybrids can have a greater impact than full electrification in reducing carbon emissions on Australia’s roads,” he said, pointing to striking differences in the energy landscape compared to countries such as Norway.

    Tesla rebuttal.

    Tesla, led by Elon Musk, refuted Toyota’s claims, emphasizing that it has invested in more than 1,000 Superchargers charging stations and is promoting the Model 3 as an affordable and efficient alternative. Tesla emphasized the need for electric vehicles to combat climate change and the potential for economic growth in the renewable energy sector, advocating for government incentives to encourage electric vehicle adoption.

    Tesla spokesperson Rohan Patel criticized Hanley’s views on social media, highlighting the growth of renewable energy in Australia and noting the ability of Tesla drivers to charge cars with clean energy independent of the power grid.

    Tensions amid the transition.

    The debate comes amid a surge in electric vehicle sales in Australia, with new policies looming on the horizon to further incentivize the use of electric vehicles. Toyota, despite leading in sales, is showing a decline in performance while Tesla’s sales are on the rise, signaling a shift.

    Toyota’s arguments extend to material efficiency, arguing that hybrids make better use of resources. In turn, Tesla and the Electric Vehicle Council object, fearing that Toyota’s position could hinder the development of the electric vehicle sector, and emphasize Australia’s role as a key player in the production of batteries for electric vehicles.

    Economic and environmental stakes.

    According to PwC, electric vehicles promise significant economic benefits: by 2030, they could generate billions of dollars in revenue and create thousands of jobs. They also reduce dependence on imported oil and gas and save consumers significant fuel and operating costs. Data from the Federal Chamber of Automotive Industries shows a doubling of EV sales, indicating a shift in consumer preference toward greener, more fuel-efficient vehicles.

    Public Reaction.

    Because the debate is in full swing and the market is responding dynamically, the discussion is spreading to consumers and policymakers. Decisions made now could change Australia’s automotive landscape and its impact on the environment for years to come.

    Is there a topic you’d like us to consider? Let us know!

    Note: Our content is intended to be entertaining and is fueled by the latest news, rumors and intriguing speculation.

    Read more / Original news source: https://manipurhub.com/electric-car-debate-toyota-and-tesla-clash-over-australia-s-future-339/

    Electric car debate: Toyota and Tesla clash over Australia’s future.

    There is an intense rivalry between Toyota and Tesla in the Australian automotive sector, not only for market share but also for opposing views on the future of transportation in the country. Toyota skepticism. Sean Hanley, Toyota’s head of sales, recently expressed doubts about the practicality of EVs in Australia, citing limited charging infrastructure, high […]

    There is an intense rivalry between Toyota and Tesla in the Australian automotive sector, not only for market share but also for opposing views on the future of transportation in the country.

    Toyota skepticism.

    Sean Hanley, Toyota’s head of sales, recently expressed doubts about the practicality of EVs in Australia, citing limited charging infrastructure, high battery costs and the carbon footprint of coal-fired electricity. Instead, Hanley advocates the use of hybrid vehicles as a pragmatic option, believing they are more suited to Australian conditions.

    “Hybrids can have a greater impact than full electrification in reducing carbon emissions on Australia’s roads,” he said, pointing to striking differences in the energy landscape compared to countries such as Norway.

    Tesla rebuttal.

    Tesla, led by Elon Musk, refuted Toyota’s claims, emphasizing that it has invested in more than 1,000 Superchargers charging stations and is promoting the Model 3 as an affordable and efficient alternative. Tesla emphasized the need for electric vehicles to combat climate change and the potential for economic growth in the renewable energy sector, advocating for government incentives to encourage electric vehicle adoption.

    Tesla spokesperson Rohan Patel criticized Hanley’s views on social media, highlighting the growth of renewable energy in Australia and noting the ability of Tesla drivers to charge cars with clean energy independent of the power grid.

    Tensions amid the transition.

    The debate comes amid a surge in electric vehicle sales in Australia, with new policies looming on the horizon to further incentivize the use of electric vehicles. Toyota, despite leading in sales, is showing a decline in performance while Tesla’s sales are on the rise, signaling a shift.

    Toyota’s arguments extend to material efficiency, arguing that hybrids make better use of resources. In turn, Tesla and the Electric Vehicle Council object, fearing that Toyota’s position could hinder the development of the electric vehicle sector, and emphasize Australia’s role as a key player in the production of batteries for electric vehicles.

    Economic and environmental stakes.

    According to PwC, electric vehicles promise significant economic benefits: by 2030, they could generate billions of dollars in revenue and create thousands of jobs. They also reduce dependence on imported oil and gas and save consumers significant fuel and operating costs. Data from the Federal Chamber of Automotive Industries shows a doubling of EV sales, indicating a shift in consumer preference toward greener, more fuel-efficient vehicles.

    Public Reaction.

    Because the debate is in full swing and the market is responding dynamically, the discussion is spreading to consumers and policymakers. Decisions made now could change Australia’s automotive landscape and its impact on the environment for years to come.

    Is there a topic you’d like us to consider? Let us know!

    Note: Our content is intended to be entertaining and is fueled by the latest news, rumors and intriguing speculation.

    Read more / Original news source: https://manipurhub.com/electric-car-debate-toyota-and-tesla-clash-over-australia-s-future-339/

    New Rolls-Royce Specter – final specifications and price.

    New Rolls-Royce Specter – final specifications and price. We are in the fourth quarter of 2023, which means that Rolls-Royce has started deliveries of the first production electric car in its history – the new Spectre. On this occasion, we will tell you about the final specifications as well as the starting price. Https://youtu.be/8cUL_EkO7mU. It […]

    New Rolls-Royce Specter – final specifications and price.


    We are in the fourth quarter of 2023, which means that Rolls-Royce has started deliveries of the first production electric car in its history – the new Spectre. On this occasion, we will tell you about the final specifications as well as the starting price.


    Https://youtu.be/8cUL_EkO7mU.

    It is described as the world’s first ultra-luxury electric super coupe. It is described as a spaciously proportioned and visually impressive two-door fastback, the spiritual successor to the legendary Phantom Coupé.

    It is a very massive car: its length is 5,475 mm, height is 2,144/2,017 mm (with/without rearview mirrors), height is 1,573 mm, wheelbase is 3,210 mm, which is enough to comfortably carry four passengers. For comparison, the length of the latest S-Class Long is 5,289 mm, wheelbase – 3,216 mm.

    The turning radius is 12.7 m, and the weight without passengers and luggage is 2,890 kg!

    The 1.5 meter long doors are the largest ever fitted to a Rolls-Royce. They are laser-welded, made from 100% aluminum to reduce weight without compromising rigidity and strength, and feature a specially developed version of the Effortless Doors electric drive system that has been fitted to every Rolls-Royce since Phantom.

    The door opens with a single movement of the inner handle to the ’comfort position’, allowing the passenger to check for hazards or obstacles. The handle must then be pulled and held to activate the system’s full power. When the door is sufficiently open, simply release the handle, which activates the door brake. The door can be closed automatically by pressing a button on the outside handle or manually with the electric actuator.

    A feature unique to the Spectre is the automatic closing of the driver’s door when the brake pedal is depressed.

    It doesn’t have four electric motors as previously reported, but only two synchronous split excitation motors (SSM), one per deck.

    The front one produces 190 kW and 365 Nm, the rear one 360 kW and 710 Nm, for a total combined output of 430 kW (585 hp) and 900 Nm.

    With all-wheel drive provided by the two units, it is able to accelerate from 0 to 100 km/h in 4.5 seconds and reach a top speed of 250 km/h.

    The battery pack has a lower capacity than the previously announced 120 kWh. Its net capacity is 102 kWh. The maximum autonomy under the WLTP cycle is up to 530 km.

    A 22 kW on-board charger provides 0 to 100% charging in 5 hours and 30 minutes.

    The vehicle also supports constant current charging: from a 50 kW station it can be charged 10-80% in 95 minutes, and at the maximum supported power of 195 kW – in 34 minutes (or 100 km of autonomy in 9 minutes).

    The lithium-ion battery is made using cobalt and lithium from strictly controlled sources in Australia, Morocco and Argentina, and the battery cells are produced using 100% green electricity. It has been extensively tested at temperatures ranging from -40 to +50 degrees Celsius, and the on-board thermal management system maintains optimum operating temperature at all times.

    The Specter is the fourth production Rolls-Royce to utilize the Architecture of Luxury platform, which is unique and patented by Rolls-Royce Motor Cars. In a visionary decision reminiscent of Charles Rolls’ famous prophecy, it was originally designed with the possibility of installing an electric drivetrain as the technology becomes available.

    The platform is an aluminum space frame that is infinitely scalable and variable around four fixed points, one at each corner of the car. This inherent flexibility allows Rolls-Royce to modify the bulkhead, floor, cross members and sills to suit each piece.

    In the Spectre, engineers have unlocked the concept’s previously unexplored potential. Complex sections of extruded aluminum and the integration of the battery into the structure made the Spectres space frame 30% stiffer than all previous Rolls-Royce models. The architecture also allowed engineers to place the floor midway between the sill structures, rather than above or below them.

    A channel for the climate control wiring and ducting runs between the battery and the floor, and the battery itself is mounted under the floor, creating a perfectly smooth profile under the floor. This allows for a low seating position, and moving the bulkhead deepens the dashboard, creating a cocoon-like feel. This feeling is enhanced by the sharply sloped windshield, which also contributes to the car’s exceptional aerodynamics.

    The positioning of the battery gives it an extremely useful secondary function: fully integrated into the vehicle’s architecture, it serves as an additional 700 kg of acoustic insulation.

    At the same time, the Specter is equipped with advanced assistance technologies such asActive Lane Centering and Adaptive Cruise Control.

    Specter is equipped with Brake Energy Recovery, which the driver can set by pressing the button labeled “B” on the lever behind the steering wheel. When Brake Mode is activated, regeneration is increased, allowing for one-pedal driving and even full stop if desired.

    The Specter is the most connected Rolls-Royce in history, with three times as many transceiver signals as any previous model. Engineers call it an “ultra-high-definition Rolls-Royce” because of its speed and accuracy in responding to road and weather conditions. Each of the car’s thousands of powertrain and chassis components has been thoroughly tested and refined during a 2.5 million kilometer test program.

    Thanks to a software architecture known as “decentralized intelligence,” data is processed closer to the source rather than being handled entirely by a single central processor. To achieve this, each of the 141,200 transceiver parameters has its own manual control.

    In almost all cases, several additional sub-variables take into account changes in climate, driving speed, road type, vehicle condition and driving style. This allows the vehicle to respond more quickly to driver intervention and changing road conditions.

    The model’s suspension is an evolution of the Planar System originally introduced on the new Ghost. Engineers describe it as an “orchestra of systems” that combines specially developed Spectres equipment and high-speed data processing capabilities to provide a signature “magic carpet ride.”

    On straight roads, the system can automatically disengage Spectres’ anti-skid system, allowing each wheel to act independently. This prevents the swaying that occurs when one side of the vehicle hits bumps in the road and significantly reduces the high-frequency interference caused by small, repetitive surface imperfections.

    When the system detects a turn, it reconnects all components, reinforces the shock absorbers and prepares to engage the all-wheel steering system to ensure easy entry into and exit from the turn. During cornering, individual sensors monitor nearly 20 different steering, braking, power delivery and suspension parameters and automatically adjust them to maintain perfect track tracking and stability.

    In terms of exterior design:

    The Spectres Pantheon grille is the widest ever fitted to a Rolls-Royce. The polished stainless steel slats are smooth and perfectly fitted, softly illuminated by 22 LEDs that illuminate the sandblasted rear surface, creating a subtle three-dimensional signature at night.

    The Spirit of Ecstasy figurine was created specifically for Spectre. With a lower stance and a more aerodynamic profile perfected through 830 hours of modeling and wind tunnel testing, the car has an aerodynamic drag coefficient of just 0.25 Cd, making the Specter the most aerodynamic Rolls-Royce ever built. And the flowing roof line contributes significantly to the exceptional aerodynamics.

    The bi-level headlights have been a Rolls-Royce trademark for many years and are a direct visual reference to the Specter’s famous ancestor, the Phantom coupe.

    Following the rear roof line, the taillights are integrated into the largest body panel ever produced for Rolls-Royce, extending from the A-pillar to the trunk. In contrast to the various exterior paint options, the taillights are a colorless neutral color.

    In keeping with its wide proportions, this is the first production Rolls-Royce two-door coupe to feature 23-inch wheels in nearly 100 years.

    As for the interior design:

    For the first time, the production model features technological solutions such asStarlight Doors, with 4,796 faintly illuminated “stars” embedded in the door panels. On request, the customer can also choose Canadel panels handcrafted from various types of wood as a background.

    The ethereal, celestial theme continues in the so-called illuminated fascia. Developed over two years and more than 10,000 hours of teamwork, this dashboard panel incorporates the Specter name surrounded by a cluster of more than 5,500 stars.

    Inspired by British tailoring, the new front seat design includes sections that can be done in contrasting colors or blended with the main base.

    As with all Rolls-Royce cars, the interior offers buyers almost limitless possibilities for customization.

    Along with the car comes the so-called SPIRIT, a completely redesigned digital architecture that connects the owner to the car like never before. In addition to controlling the vehicle’s functions, SPIRIT is seamlessly integrated into the Whispers app, allowing owners to interact with the vehicle remotely.

    For the first time with this solution, customers can extend their personalization wishes into the digital realm, such as choosing an instrument dial color that complements the car’s interior or exterior palette.

    The car has a starting price of £330k in the UK (equivalent to €380k). According to the company representatives, there will be no two identical cars.

    Recall that by the end of 2030, the entire lineup of the company will be fully electricRolls-Royce will never again produce new models with an internal combustion engine.

    Https://youtu.be/oYmDS3GxjXU.

    Read more / Original news source: https://manipurhub.com/new-rolls-royce-specter-final-specifications-and-price-337/

    Drive: The surprising truth about what motivates us – Daniel H. Pink.

    The Traditional Concept of Motivation. Pink begins by examining the traditional carrot-and-stick approach to motivation, emphasizing its limitations in today’s world. He emphasizes that extrinsic rewards and punishments, once effective in routine tasks, often inhibit creativity and innovation, especially in complex, cognitively demanding tasks. Pink argues that this traditional approach is outdated and fails to […]

    The Traditional Concept of Motivation.

    Pink begins by examining the traditional carrot-and-stick approach to motivation, emphasizing its limitations in today’s world. He emphasizes that extrinsic rewards and punishments, once effective in routine tasks, often inhibit creativity and innovation, especially in complex, cognitively demanding tasks. Pink argues that this traditional approach is outdated and fails to realize the full potential of the individual.

    Three elements of intrinsic motivation.

    Pink introduces the concept of intrinsic motivation, which is based on internal desires rather than external rewards. He identifies three key elements that define intrinsic motivation:

    1. autonomy:

    Pink argues that autonomy, or the desire for self-determination, is a key motivator. When individuals have freedom of choice and control over their work, they are more engaged, creative, and productive. Autonomy allows people to align their work with their values and interests, developing a sense of ownership and responsibility.

    2. Mastery:

    The pursuit of mastery, or the desire to improve one’s skills, is another powerful motivator. Pink explains that the opportunity to develop one’s knowledge and pursue personal growth enhances intrinsic motivation. People who strive for mastery are motivated by the intrinsic satisfaction derived from becoming proficient at what they do.

    3. Purpose:

    Pink emphasizes the importance of purpose, the desire to contribute to something meaningful and bigger than oneself. When a person perceives their work as purposeful, connected to a noble cause or public good, their motivation and commitment increases. Purposeful people find deeper fulfillment and satisfaction in their contributions to society and humanity.

    The role of autonomy, mastery, and purpose in different contexts.

    Throughout the book, Pink provides numerous real-life examples-from corporate environments to educational institutions-that demonstrate the transformative impact of autonomy, mastery, and purpose. He shows how organizations and leaders who prioritize these intrinsic motivators witness increases in employee engagement, creativity, and overall job satisfaction.

    Rethinking Motivation in Business and Education.

    Pink challenges traditional business models and educational practices that rely heavily on extrapersonal rewards and punishments. He advocates a paradigm shift that recognizes the importance of autonomy, mastery, and purpose in building motivated employees and nurturing passionate learners. Pink argues that organizations and educators must create an environment that fosters the development of intrinsic motivation, allowing individuals to thrive and reach their full potential.

    Conclusion: Empowering intrinsic motivation for a fulfilling life.

    In conclusion, Daniel Pink’s book Drive offers a profound rethinking of motivation, encouraging readers to embrace the principles of autonomy, mastery, and purpose in their lives and work. By understanding the innate human drive for self-direction, growth, and contribution to the common good, people can unlock their intrinsic motivation and experience deep fulfillment.

    Through compelling research, insightful anecdotes, and practical advice, Pink empowers readers to create an environment that fosters intrinsic motivation, both for themselves and those they lead or teach. The Drive book serves as a roadmap for individuals, leaders, and organizations seeking to inspire genuine passion, creativity, and excellence. By embracing the surprising truth about what motivates us, readers can begin a transformative journey to a more engaging, meaningful, and fulfilling life.

    Read more / Original news source: https://manipurhub.com/drive-the-surprising-truth-about-what-motivates-us-daniel-h-pink-331/

    Unraveling the mysteries of fast charging electric cars: A comprehensive look.

    Electric vehicles (EVs) have changed the way we think about driving, offering a cleaner and greener alternative to traditional gas-powered cars. But let’s face it, there are a lot of misunderstandings and concerns when it comes to charging. One moment you hear someone swear that fast charging is the best thing in the world, while […]

    Electric vehicles (EVs) have changed the way we think about driving, offering a cleaner and greener alternative to traditional gas-powered cars. But let’s face it, there are a lot of misunderstandings and concerns when it comes to charging. One moment you hear someone swear that fast charging is the best thing in the world, while someone else is convinced it’s the fastest way to kill your battery. But what’s the real story?

    Recurrent recently conducted a study that will probably put an end to this debate once and for all, and the results were quite impressive. Let’s find out the details.

    Understanding the essence of fast charging.

    Fast charging is a topic of debate among enthusiasts and skeptics alike. What causes the concern? The fact that putting too much power into your battery too quickly can shorten its lifespan. Sounds reasonable, doesn’t it? Turns out, it’s actually much more complicated and not nearly as alarming.

    Recurrent Research: Shedding light on battery health.



    Imagine having over 12,500 Tesla vehicles at your disposal for study. Recurrent had just such cars at their disposal, and they put them to the test to see how fast charging affects battery health. The results? The cars that were frequently fast-charged showed no greater reduction in range than those that had little or no use of fast chargers. It’s like finding out that eating chocolate has no effect on weight – an unexpected but pleasant surprise.

    The fine print about fast charging.

    But before you rush off to the nearest fast charger, let’s delve a little deeper. There are several nuances to the issue of fast charging:

  • Pre-conditioning is key: Charging at extreme temperatures? First, the battery must be pre-conditioned. This is similar to warming up before a sprint – the battery prepares for the influx of energy.
  • Sweet Spot Charging: Charging an empty to full battery at lightning speed may not be the best technique. Fast charging works best away from extremes – not too low and not too high.
  • Myth debunking: Full fast charging from 0 to 100% is not recommended, despite what some people think. And no, not all fast charging is harmful. Also, cold weather is not a battery’s friend during fast charging – it can cause lithium plating, which is a serious negative factor for battery health.
  • Charging strategies to optimize battery health.

    Your electric vehicle (EV) has a level of intelligence that may surprise you, especially in how it manages the charging process. It’s akin to having an experienced co-pilot looking after the health of your battery. Imagine this: when the EV’s battery capacity fills up and reaches the 80% threshold, the car’s smart charging program kicks in. It gently reduces the charging intensity, like a careful reminder not to gorge on a drink when it’s nearing full capacity.

    This automated system understands the needs of the battery and adjusts the flow of charge accordingly. This is similar to the body’s natural slowdown after an intense run, signaling that it’s time to switch and cool down. Once charging reaches 80%, the charging rate slows down, transitioning to a more gentle phase for the last 20%. This transition is designed to extend the life of the battery and ensure that the vehicle is kept in perfect condition, ready to move on without overloading the most important energy source.

    Factors affecting the charging rate of an electric vehicle.

    Think of the charging rate of your EV like your morning coffee. It varies. A lot. It can depend on:

  • Model and software: Just as you might choose a latte over a cappuccino, your EV’s model and software determine its charging preferences.
  • Battery Mood: Temperature, state of charge, and age all affect how fast your battery charges. It’s similar to how some days you drink your coffee in minutes and others you drink it slowly.
  • Long-term impact: We can’t look into a crystal ball and see the exact effects of regular fast charging over decades, but the general consensus is unequivocal: a little fast charging here and there is not cause for concern.
  • Life with EVs: daily charging.

    Incorporating daily electric vehicle charging into your daily routine is not as onerous as it may seem at first glance – it fits quite seamlessly into the flow of everyday life. Think about the convenience of home charging – it’s as simple as plugging in your smartphone overnight. You plug your EV into the charger and then go about your evening routine – essentially set it and forget it. Not only is this method leisurely, but it’s also the most cost-effective way to keep your battery fully charged, giving your car a constant boost while it’s parked in the driveway or garage.

    Now, when it comes to the actual need for charging speed, for the typical electric car owner who uses it to commute to work, this issue falls by the wayside. In fact, the electric car will likely spend a significant amount of time parked while you sleep or work. During these intervals, it quietly and efficiently replenishes its charge in preparation for the next trip. So, when considering the day-to-day operation of an electric car, the question of how fast it can charge falls away – slowness wins out, and you can rest assured that your electric car is always ready to go.

    Utilizing the full potential of fast charging.

    So what does all this mean for you, the EV driver?

  • Peace of mind: Fast charging enthusiasts can rest easy – the health of your battery isn’t on the line.
  • Charging flexibility: Because fast charging doesn’t significantly affect the performance of the car, you have more freedom to choose how and when you recharge.
  • Cost-effective home charging: Charging at home is not only convenient, but also easy on the wallet.
  • The Future of EV Charging.

    The path to electric vehicle charging is full of twists and turns, but it’s becoming increasingly clear. Thanks to studies like Recurrent’s, we can look to the future with confidence, knowing that our electric vehicles are designed for the fast pace of our lives – and our charging habits. So charge your car, stay cool, and enjoy the ride into an electrified future.

    Read more / Original news source: https://manipurhub.com/unraveling-the-mysteries-of-fast-charging-electric-cars-a-comprehensive-look-328/

    Ford hints at an electric future for the Fiesta.

    As the last internal combustion engine-powered Ford Fiesta bid farewell to the assembly line in Cologne, Germany, the American auto giant is teasing the market with the prospect of an electric reincarnation of its favorite model. Ford’s move to electrification means not only transforming the Fiesta model, but also adapting to the changing automotive landscape. […]

    As the last internal combustion engine-powered Ford Fiesta bid farewell to the assembly line in Cologne, Germany, the American auto giant is teasing the market with the prospect of an electric reincarnation of its favorite model. Ford’s move to electrification means not only transforming the Fiesta model, but also adapting to the changing automotive landscape.

    A potential revival of a beloved model.

    Despite the demise of the traditional Fiesta, Ford is not about to close the doors on its iconic model. Martin Sander of Ford Europe suggests that the Fiesta could be reborn as an electric vehicle (EV). This news could be a positive development for fans, promising the return of the Fiesta with an eco-friendly bias.

    A global strategy with an electric bias.

    Ford’s global vision includes developing a versatile EV platform aimed at a wide audience, not just European ones. The company aims to present models that will resonate globally, while minimally adjusting to regional preferences. Ford’s strategy involves leveraging existing partnerships, such as its partnership with Volkswagen, to expand the reach of electric vehicles without isolating its market presence.

    Upcoming electric models and strategic investments.

    Ford’s partnership with Volkswagen includes new electric vehicles based on VW’s MEB platform, including the anticipated Ford Explorer electric SUV. Ford’s Cologne plant, which has seen $2 billion invested in renovations to produce electric vehicles, is a testament to the company’s commitment to electrification.

    Affordable Electric Vehicle Segment: Open Opportunities.

    As the market for electric vehicles costing up to €25,000 is booming, as evidenced by Volkswagen’s preview of the ID.2, Ford could use its partnership to enter the affordable electric vehicle market. However, stringent emissions regulations and profitability issues have previously forced Ford to pull out of the European small car segment.

    A balanced approach to electrification.

    While the affordable Fiesta EV fits European preferences, Ford is focusing on larger, “non-apologetically American” EVs, reflecting a strategy balancing consumer desires and company profitability. The possibility of a Fiesta EV remains speculative and is not central to Ford’s immediate plans, reminiscent of the fate of the rumored all-electric Beetle.

    Summary: Is an electric Fiesta on the horizon?

    Ford’s turn toward electric vehicles suggests that even the beloved Fiesta could be part of the green revolution. While there are no concrete plans yet, the idea of a Fiesta EV is still dancing on the edge of possibility. Enthusiasts will have to wait to see if this party favorite will return to the streets in electrified form.

    Is there a theme you’d like to dive into? Let us know!

    Note: Our content is for entertainment purposes and is fueled by the latest news, rumors and intriguing speculation.

    Read more / Original news source: https://manipurhub.com/ford-hints-at-an-electric-future-for-the-fiesta-324/

    The Future of Batteries for Electric Vehicles: A Comparative Analysis.

    Electric vehicles (EVs) are increasingly in the spotlight as the world seeks to reduce carbon emissions from traditional gasoline engines. The heart of any electric vehicle is the battery, a critical component that determines the range, speed, and durability of the vehicle. This article discusses a comparison of three promising battery technologies: lithium-ion, hydrogen fuel […]

    Electric vehicles (EVs) are increasingly in the spotlight as the world seeks to reduce carbon emissions from traditional gasoline engines. The heart of any electric vehicle is the battery, a critical component that determines the range, speed, and durability of the vehicle. This article discusses a comparison of three promising battery technologies: lithium-ion, hydrogen fuel cells and solid-state batteries, examining their functionality, advantages and challenges.

    The current state of the art of battery packs for electric vehicles.

    The range of most EVs today is 300 to 400 miles on a single charge, in stark contrast to the quick refueling capability of gasoline-powered vehicles. Charging an EV can take anywhere from 30 minutes at a Level III charging station to 12 hours at a Level II station. Range concerns remain a major obstacle to widespread EV adoption, though models like the 2022 Lucid Air and Tesla Model S are pushing the boundaries by offering ranges in excess of 400 miles.

    Lithium-ion: Industry standard.

    Lithium-ion batteries are ubiquitous in devices ranging from smartphones to electric cars. These batteries work by moving lithium ions between electrodes, allowing them to store a significant amount of energy in a compact space. Their advantages are high energy density and low self-discharge rate. However, there are also disadvantages: temperature sensitivity, potential fire hazard, and limited lifetime requiring periodic replacement.

    Hydrogen fuel cells: A clean alternative.

    The Toyota Mirai exemplifies the potential of hydrogen fuel cells, which feature zero emissions and a 402-mile range on a 5-minute refueling. The challenges facing this technology are similar to those faced by electric cars: infrastructure development. Storing hydrogen is also challenging: its tendency to leak from containers and its volatility require specialized detection equipment.

    Solid-state batteries: A glimpse into the future.

    Solid-state batteries with solid electrodes and electrolytes offer increased stability and safety. Due to their higher energy density, they can double the driving range of modern EVs. However, they currently face recharging problems due to the low ionic conductivity of solid materials. Researchers are actively working to make solid-state batteries rechargeable in an effort to solve interfacial interaction problems and increase their lifespan.

    Summary: The race is on to revolutionize the energy industry.

    Each type of battery has its advantages and disadvantages, but the future seems to be leaning towards solid-state technology. Promising to improve safety, environmental friendliness, and durability, solid-state batteries could change the electric vehicle market. However, researchers need to be patient to perfect this promising energy source.

    What do you think about battery technologies shaping the future of electric vehicles?

    Is there a topic you’d like us to take a closer look at? Let us know!

    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/the-future-of-batteries-for-electric-vehicles-a-comparative-analysis-322/

    TESLA QUANTUM LEAP USING XAI’S GROK PROVIDES NATIVE AI EXPERIENCE.

    On Friday, xAI, the company led by visionary Elon Musk, took a revolutionary step in the automotive industry by revealing its audacious plan to seamlessly integrate a compressed iteration of Grk artificial intelligence into the very design of Tesla vehicles, allowing them to expand their native capabilities. This discovery doesn’t just signal a technological upgrade, […]

    On Friday, xAI, the company led by visionary Elon Musk, took a revolutionary step in the automotive industry by revealing its audacious plan to seamlessly integrate a compressed iteration of Grk artificial intelligence into the very design of Tesla vehicles, allowing them to expand their native capabilities. This discovery doesn’t just signal a technological upgrade, it opens the door to a potential paradigm shift in automotive AI, ushering in an era where Tesla cars could own the world’s most extensive usable computing system.

    Elon Musk’s endorsement, delivered with his characteristic delicacy, becomes the catalyst that triggers a cascade of intellectual discussion and speculative frenzy. Anticipation and curiosity are in the air as the industry ponders Grk’s upcoming role in reshaping automotive AI.

    Grk and Tesla convergence.

    After Tesla enthusiast Chuck Cook made an insightful remark on Saturday, the community has been immersed in the complex tapestry of Grk’s potential application in Tesla cars. Elon Musk’s admission that Tesla can lay claim to the world’s largest computing complex for computing depends on the successful implementation of Grk into the car’s artificial intelligence system.

    Speculation is emerging that Grk could replace Tesla’s existing voice control system, adding new nuance and depth to the narrative. Even more intrigue arises as details about the SuperPrompt contextual window emerge, hinting at a potential 25,000 character limit. This subplot dives into the maze of integrating Grk into Teslas, revealing layers of its potential impact on the automotive AI landscape.

    Grk’s expanding role and Musk’s vision for AI.

    Looking beyond the Tesla integration, the company’s AI strategic maneuvers come into focus. Plans for an application programming interface (API) for Grk are unfolding, opening up a panoply of possibilities. Grk, equipped with sound and image recognition, goes beyond the role of a mere automotive assistant, hinting at a wider range of applications.

    Elon Musk’s announcement that Grk will be available to Premium Plus subscribers with a monthly fee of $16 adds a commercial dimension to xAI’s strategy. This revelation, which follows Musk’s recent announcement that xAI is a powerful competitor to OpenAI, adds strategic depth to the narrative. The narrative takes an exciting turn when biographer Walter Isaacson peels back the historical layers revealing Musk’s past attempt to absorb OpenAI into Tesla, thereby illuminating the tangled web of connections between Tesla, xAI, and the broader AI landscape.

    Navigating the Tesla AI saga.

    As the metaphorical curtain rises over the upcoming integration of Grk into Tesla vehicles and the narrative of xAI’s strategic ballet unfolds, a key question arises that casts a shadow of anticipation: How will Grk change the in-car AI experience for Tesla drivers, and what complex effects might it trigger in the broader AI landscape?

    Elon Musk’s announcement of early access for Premium Plus subscribers “as soon as the early beta is released” becomes a tantalizing promise, setting the stage for an unprecedented leap forward in the synergistic dance between automotive technology and artificial intelligence. The road ahead, illuminated by the emergence of Grk as a driving force, promises not only transformative innovation, but a journey rife with challenging opportunities as the story of AI-driven innovation continues to unfold.

    Read more / Original news source: https://manipurhub.com/tesla-quantum-leap-using-xai-s-grok-provides-native-ai-experience-320/

    Automotive program management – Change management.

    Introduction. The automotive industry is constantly evolving, driven by technological advances, changing customer preferences, and regulatory requirements. As a result, automotive program managers must be able to manage change. Change management is the process of helping individuals, teams, and organizations move from a current state to a desired future state. In the automotive industry, change […]

    Introduction.

    The automotive industry is constantly evolving, driven by technological advances, changing customer preferences, and regulatory requirements. As a result, automotive program managers must be able to manage change. Change management is the process of helping individuals, teams, and organizations move from a current state to a desired future state.

    In the automotive industry, change management can be particularly challenging because of the complex and interconnected nature of the product development process. Any change to one aspect of an automobile can impact other aspects such as cost, performance, and reliability. In addition, automotive programs are often very time sensitive, and tight deadlines must be met to get new vehicles into production.

    Despite the challenges, effective change management is essential to the success of automotive programs. By carefully planning and implementing change initiatives, program managers can minimize disruption and ensure that their programs stay on track.

    Benefits of effective change management.

    Effective change management can provide a number of benefits to automotive program managers, including:

  • Risk mitigation: Change management identifies and mitigates potential risks associated with change. This avoids costly delays and disruptions to program operations.
  • Increased stakeholder satisfaction: Change management helps ensure that all stakeholders are informed and involved in the change process. This will help build trust and support for change, which can lead to better outcomes.
  • Increase employee engagement: Change management can help to create a sense of ownership and responsibility for change among employees. This can lead to increased engagement and productivity.
  • Improved organizational performance: Change management can help organizations adapt to change more effectively, which can lead to improved performance over time.
  • Key principles of change management.

    There are a number of key principles that automotive program managers can follow to improve change management effectiveness. These include:

  • Have a clear vision for change: Before implementing any change, it is important to have a clear vision of the desired future state. This vision should be communicated to all stakeholders and used to guide the change process.
  • Involve stakeholders early and often: It is important to involve all stakeholders early and often in the change process. This will help to identify and address potential problems and build support for the change.
  • Ensure clear and concise communication: Throughout the change process, it is important to ensure clear and concise communication to all stakeholders. This will help keep everyone informed about the changes and reduce uncertainty.
  • Managing resistance to change: Resistance to change is normal. Program managers must be prepared to manage this resistance and help staff transition to the new state.
  • Monitoring and evaluating change: It is important to monitor and evaluate the change process to ensure that it is on track and achieving its goals. Necessary adjustments should be made as the process progresses.
  • Change management models in the automotive industry.

    There are a number of change management models that can be used in the automotive industry. One popular one is the ADKAR model, which stands for Awareness, Desire, Knowledge, Ability, Reinforcement. This model identifies five key elements necessary for successful change:

  • Awareness: employees must be aware of the need for change and understand the benefits it will bring.
  • Desire: Employees must have a desire to change and be motivated to support the change initiative.
  • Knowledge: Employees must have the knowledge and skills necessary to implement the change.
  • Ability: Employees must be able to implement the change effectively.
  • Reinforcement: Employees should be rewarded for their efforts in implementing change.
  • Another popular change management model is Kotter’s model, which identifies eight steps to successful change:

  • Create a sense of urgency: Employees must recognize the need for change and understand the urgency of the situation.
  • Form a strong leadership coalition: A team of influential leaders must be assembled to guide the change process.
  • Create a vision for change: A clear and concise vision of the desired future state must be developed and communicated to all stakeholders.
  • Communicate the vision: The vision for change must be communicated to all stakeholders in a clear and concise manner.
  • Empower employees to take broad actions: Employees should be empowered to take action and implement the change.
  • Generate short-term wins: Short-term wins should be celebrated to build momentum for change.
  • Consolidate gains and drive further change: Short-term wins should be used to consolidate gains and drive further change.
  • Read more / Original news source: https://manipurhub.com/automotive-program-management-change-management-318/

    Solid-state batteries will revolutionize electric cars.

    Electric vehicles (EVs) have come a long way over the years. Now almost every electric vehicle can travel at least 250 miles on a single charge, and many can travel more than 300 miles. Charging times with DC fast chargers have also improved dramatically. The Hyundai Ionic charges from 10% to 80% in just 18 […]

    Electric vehicles (EVs) have come a long way over the years. Now almost every electric vehicle can travel at least 250 miles on a single charge, and many can travel more than 300 miles.

    Charging times with DC fast chargers have also improved dramatically. The Hyundai Ionic charges from 10% to 80% in just 18 minutes. Sure, that’s a bit slower than the roughly 5 minutes it takes to fill up the gas tank of an internal combustion engine vehicle (ICEV). But it’s not an excruciatingly slow recharge time.

    That said, keep in mind that a 240 mile trip will take about 4 hours. After 4 hours of driving, I don’t think I’d get much of a heartache if I took an 18-minute break to go to the bathroom, grab a snack, and stretch my legs.

    Long car rides are usually the exception.

    We also have to remember that for most people, long car trips are the exception. In the US, people drive an average of 40 miles a day. Most people will just recharge their EVs at home every night. And may even skip one or two nights of charging at home.

    Solid state batteries are the gold standard for long trips.

    Many people who purchase EVs as first adopters don’t worry too much about the 18-minute stop to recharge. Oh, and the car’s 300-plus mile range is quite comfortable. But as EV sales grow, we’re approaching consumers who will want more range, or at least much faster charging times. This, in my opinion, is one of the main reasons for some of the slowdown in EV sales at the moment.

    The answer is solid state batteries. I won’t go into the technical details of the differences between current lithium and solid state batteries. The main point of this article is the practical effect of using such batteries in EVs for the consumer. I want to show how this will make a difference and how soon we should hope to see them.

    Longer range of solid state batteries.

    One of the two main features of solid state batteries is increased range. Toyota has stated that once it releases its electric cars with solid state batteries, it expects to have vehicles with a range of about 750 miles on a single charge. If traveling at 60 miles per hour, that would amount to 12.5 hours of non-stop driving. Perhaps in my 20s I could have traveled that much in one leg of the trip. But now there is no way I could drive half that amount of time without having to get out of the car briefly.

    This range will be even more important for pickup trucks towing trailers. If a pickup truck is towing a trailer, it loses 30 to 50% of its range on any type of fuel. This is true for both ICEVs and EV pickups. An ICEV pickup can be refueled in 5 minutes, while an EV pickup typically takes about 40 minutes to recharge. If you have an EV pickup with a 400-mile range, that means you’ll drive just over 200 miles before you need to recharge. If your EV pickup can go 750 miles without a trailer, you can go almost 400 miles when towing a trailer. That would amount to 6 hours between stops for charging.

    Massive increase in charging speed.

    Another huge advantage of solid state batteries is charging speed. Toyota claims that its solid-state batteries will be able to be charged to 100% in 10 minutes or less on a fast DC charger.

    Now EV road trips will be as painless as ICEVs. Think back to our example of EV pickups pulling camper trailers. You can drive 360 miles (about a 6 hour stretch) and charge that pickup in 10 minutes. I bet it would take longer to take the family to the bathroom and buy snacks than it would to recharge.

    Another major benefit of fast charging is that people who own EVs live in places where there is no way to recharge at home. An example would be someone who only has on-street parking or lives in an apartment complex that has not yet installed Level 2 chargers for residents.

    When will we see these batteries?

    Toyota says it should begin mass production of solid-state batteries by 2027 or 2028. Hyundai says its entire fleet of vehicles will use solid-state batteries by 2030. Tesla has also said it will use solid-state batteries, but has not yet given any timeline. I expect other automakers to follow suit around the same timeframe.

    I think even now electric cars are a great purchase for many people. Keep in mind that the average person drives 40 miles a day and recharges at home most of the time. I can see a fair number of two-car families having EVs and ICEVs until solid state battery cars hit the market. But if companies like Hyundai and Toyota reach their goals of solid state battery EVs by 2030, the day of the ICEV is pretty much at an end.

    Read more / Original news source: https://manipurhub.com/solid-state-batteries-will-revolutionize-electric-cars-317/

    How many times did Sam and Dean crash their Impala in “Supernatural”?

    Actually, 10 times. The Chevrolet Impala, everyone’s favorite Supernatural character, has been through a lot. This classic car driven by the Winchester brothers, Sam and Dean, has witnessed countless paranormal phenomena and demon-hunting adventures. However, it has not been without its accidents. In this article, we’ll take a look at how many times the Impala […]

    Actually, 10 times.

    The Chevrolet Impala, everyone’s favorite Supernatural character, has been through a lot. This classic car driven by the Winchester brothers, Sam and Dean, has witnessed countless paranormal phenomena and demon-hunting adventures.

    However, it has not been without its accidents. In this article, we’ll take a look at how many times the Impala was involved in accidents throughout the series.

    1. First Crash: Season 1, Episode 11 – “Scarecrow”.

    The first significant accident involving the Impala occurred in the episode “Scarecrow.” While running away from a seemingly omniscient scarecrow, Dean swerves to avoid it, causing the Impala to crash into a tree.

    This early incident started the Impala’s troubled journey through the series.

    Personal example: As a fan, this accident was a memorable moment for me as it showed the vulnerability of Impala being a character in her own right.

    2. Meeting Gordon: season 2, episode 10 – “Hunted”.

    In the episode “Hunted”, the Impala gets into another accident, this time with Gordon, a hunter who is out for revenge against Sam.

    Gordon crashes his car into the Impala, causing significant damage to the Impala. This accident symbolizes the growing threat to the Impala from not only supernatural beings, but also fellow hunters.

    Personal example: This accident was a turning point in the series because it showed that even allies can pose a threat to Impala.

    3. Meeting Rugaru: Season 4, Episode 4 – “Metamorphosis”.

    In the episode “Metamorphosis”, Sam crashes his Impala into a Rugaru, causing damage to the car’s front end.

    This crash serves as a reminder that the Impala often becomes collateral damage in tense battles with supernatural beings.

    Personal example: This crash served as evidence that the Impala can never catch a break, even when it’s not Sam or Dean behind the wheel.

    4. Clash with Crowley: Season 5, Episode 10 – “Abandon All Hope”.

    In the episode “Abandon All Hope”, the Impala gets into a head-on collision with demon Crowley’s car.

    The collision leaves both cars severely damaged, which is another example of the Impala getting damaged.

    Personal example: This accident is particularly memorable because of its importance in the ongoing fight against the demons and its effect on the Impala’s appearance.

    5. Leviathan Attack: Season 7, Episode 1 – “Meet the New Boss”.

    The Leviathans, formidable foes, attack the Impala in the premiere episode of Season 7.

    They collide with the vehicle, causing significant damage. This crash demonstrates that the Impala continues to be an integral part of the Winchesters’ lives.

    Personal example: This accident demonstrated the resilience of the Impala as it continued to exist despite the numerous damages.

    6. Car vs. Truck: Season 8, Episode 15 – “Man’s Best Friend with Benefits”.

    In this episode, a collision with a truck results in significant damage to the Impala car.

    The constant need for repairs and its ability to keep running was a testament to the longevity of the beloved car.

    Personal example: This accident emphasized the Impala’s resilient spirit and its status as a symbol of the Winchester brothers’ unwavering determination.

    7. Duel with Gadreel: Season 9, Episode 10 – “Road Trip”.

    When the angel Gadreel takes control of Sam, he crashes his Impala into a lamppost.

    This crash symbolizes Impala’s vulnerability when one of her favorite drivers is under outside influence.

    Personal example: This accident emphasizes the deep bond between Impala and the characters, as even the influence of an angel could not break that bond.

    8. Hit by a Minivan: Season 11, Episode 4 – “Baby”.

    The episode “Baby” takes an in-depth look at the history of the Impala. During a flashback, it is revealed that the car was hit by a minivan driven by a drunk driver.

    This event, while not part of the series timeline, is an important part of the Impala’s history.

    Personal example: This accident demonstrated the resilience of the Impala, as it was not only recovered, but continued to serve the Winchesters for years to come.

    9. Demon Attack: Season 12, Episode 12 – “Stuck in the Middle (With You)”.

    In this episode, the Impala is involved in an accident when it is attacked by a demon.

    This incident reminds viewers that no matter how old and shabby the Impala is, it remains a target for supernatural entities.

    Personal example: This accident, which occurred in a later season, was evidence that the Impala continues to exist in the series.

    10. Final Battle: Season 15, Episode 20 – “Carry On”.

    In the series finale, the Impala suffers its last significant damage during an epic battle with God himself.

    This crash marks the end of Impala’s journey in the series, and also serves as a symbol of her unwavering support for the Winchesters.

    Personal example: This crash was a poignant moment for fans, symbolizing the end of Impala’s remarkable journey throughout the Supernatural series.

    To summarize, Impala’s numerous crashes and wrecks in the Supernatural series reflect not only the hardships she faced, but also her continued presence as a beloved character.

    Despite constant threats and damage, the Impala remains a symbol of the Winchester brothers’ resilience.

    Read more / Original news source: https://manipurhub.com/how-many-times-did-sam-and-dean-crash-their-impala-in-supernatural-315/

    Electric cars: Are they really as environmentally friendly as we think?

    Electric cars are becoming increasingly popular, and it seems that they are the future of transportation. One of the reasons for this is that they are environmentally friendly, as they produce no exhaust fumes. However, it is important to consider where the electricity to power electric cars comes from, as this can make a big […]

    Electric cars are becoming increasingly popular, and it seems that they are the future of transportation. One of the reasons for this is that they are environmentally friendly, as they produce no exhaust fumes. However, it is important to consider where the electricity to power electric cars comes from, as this can make a big difference to how environmentally friendly they really are.

    Electric vehicle adoption.

    China had the most cars on the road in 2019 (33 million), followed by the US (14 million). However, China’s EV market share is only 3.9%, significantly lower than Norway (45.9%), the Netherlands (15.2%) and Sweden (5.1%). The US ranked 10th with a market share of just 1.5%.

    China and the US together account for 21% of the world’s population, so despite their countries’ low EV market share, they have a big impact on the global EV market.


    Fossil fuels.

    Most countries still use fossil fuels, mainly coal, gas and oil, to generate electricity. In 2022, fossil fuels accounted for about 61% of global electricity production, with coal and gas accounting for more than 50% of total production.

    The top three countries in the world in terms of electricity consumption are China, the United States, and India. These countries use large amounts of fossil fuels to generate electricity – over 80%.

  • THE U.S. IS 88.8%.
  • China – 82.17%.
  • India – 82%.

  • This makes me wonder how environmentally friendly electric cars really are. They are advertised as environmentally friendly, but many of the countries that are fastest to adopt them, such as China and the US, mostly use fossil fuels to generate electricity. So won’t this lead to an increase in dirty energy consumption as more people switch to electric cars?

    Increased competition through incentives.

    CO2 emission standards for cars, such as the Eurostandard, often incentivize zero-emission vehicles, such as electric cars, to help automakers reduce emissions. As these standards become stricter, automakers have to find ways to comply. Some of them will find it difficult to meet these standards and may even go so far as to cheat.

    Switching to electric cars may seem like a no-brainer to automakers, since they no longer have to worry about emissions testing. But that situation has changed. With the surge in demand for electric cars, driven by government incentives and the automakers themselves, there is a concern that power plants may now emit more CO2 to meet the increased demand for electricity. This could completely reverse the environmental benefits of electric cars.

    Lithium batteries.

    Batteries for electric vehicles are a key element of sustainable transportation, but they are not perfect. Mining and processing the metals and minerals that make up electric car batteries, such as lithium, cobalt, and nickel, can harm the environment.

    Mining these materials requires a lot of energy and water, and results in toxic emissions. Thus, the production of electric vehicles becomes more energy intensive than the production of traditional gas-powered vehicles.

    Conclusion.

    The transition to electric cars as a more environmentally friendly way of transportation is not an easy one. Electric cars produce no exhaust emissions when they drive, but the electricity they consume and the environmental costs of their production and batteries cannot be ignored.

    We need to utilize more sustainable and renewable energy sources such as wind, hydro and solar power, and reduce the environmental damage caused by the production of lithium batteries to make the entire life cycle of EVs more sustainable and realistic.

    Thanks for reading, world.

    Read more / Original news source: https://manipurhub.com/electric-cars-are-they-really-as-environmentally-friendly-as-we-think-313/

    Step on the gas pedal.

    What is your favorite car from the movies? I’m too old to worry about what kind of car I drive. I just need it to get me from point A to point B without breaking down. Besides, cars are very expensive not only to buy but also to operate, because those wonderful gasoline companies are […]

    What is your favorite car from the movies?

    I’m too old to worry about what kind of car I drive. I just need it to get me from point A to point B without breaking down. Besides, cars are very expensive not only to buy but also to operate, because those wonderful gasoline companies are ripping us off left and right.

    Nevertheless, there was a time when I loved cars. Perhaps it was a masculine trait, but you were proud to have a fancy car to show off. Whether this was due to a lack of girlfriends and a lack of certain parts of my anatomy, I can’t say.

    I remember washing my car regularly so that it would shine and sparkle in the sun, standing out from the neighbors. It was a pathetic sight. Now I leave it to nature to take care of washing my car.

    But I’m just saying. Most of my dream cars came from watching movies, because cars and movies are synonymous. I couldn’t afford such cars, but dreaming of getting behind the wheel and owning one didn’t hurt. I had a large collection of toy cars as a kid, and most of them were a direct result of watching movies. I later sold that entire set to buy my first Hi-Fi music system. As you get older, priorities change somewhat!

    So, below are a few of my favorite cars from the movies, most of which I had, despite the fact that they were so small they could only fit a mouse! I’ve ignored the actual race cars and any cars from the Fast and Furious movies, as this series just makes me mad and infuriated!

    Chitty Chitty Bang Bang.

    Let’s start with one of the most famous cars. A great children’s movie that is shown every Christmas in the UK, and one that I always watch. My Chitty Chitty Chitty Bang Bang model had a lever that when pushed, the wings would swing out sideways. I’m sure she had other adaptations as well. Unfortunately, it didn’t fly, which was proven when my brother threw it across the room one day.

    Herbie: Volkswagen Beatle.

    Let’s face it, the Volkswagen Beatle can’t be called a glamorous car, but when the movie “The Love Bug” came out in 1968, it became popular. The movie spawned several sequels, some of which were better than others. No, I did not own a toy car as it did not fit into my collection.

    However, when we lived overseas, my dad had a VW Beatle and it was the first car I was allowed to drive around an empty airfield. As soon as I saw the movie, the car took on a new life for me and I always wanted to paint the number 53 on the hood, but that wouldn’t have been very convenient as we were constantly coming and going from RAF bases.

    Mini Cooper: Italian Job.

    Another car that wasn’t quite so dazzling in the old days. Today they are much more fashionable. I wonder how much sales of this car increased after the famous Michael Caine movie was released.

    My father also had a Mini that I took my driving test in. For some reason, he wouldn’t let me drive it on the subway or try to park it on a moving truck. Spoiled it!

    Ford Mustang: Bullitt.

    Who wouldn’t want to own a car like this after watching a pulse-pounding chase featuring Steve McQueen behind the wheel of a Ford Mustang GT? This movie drew me to Mustangs, and my dream has always been a Ford Mustang Mach 1, especially after seeing this model in Diamonds Are Forever. More on the famous Spyro a little later. Unfortunately, I had to stay with the little car. Nevertheless, I was very proud to own both the red and green versions of this model.

    Pontiac Trans Am: Smokey and the Bandit.

    I really liked the Smokey and the Bandit movies. You know, the ones starring Burt Reynolds and Sally Field. They were silly, but a lot of fun to watch when I was young. I also had a crush on Sally Field. Like most women, she never had the same feelings for me. If only she had met me, at least she had an excuse. I always dreamed of driving one of those cars with Sally Field by my side. What did Burt Reynolds have on me? Okay, enough about that.

    Aston Martin and other great James Bond cars.

    Like Bruce Springsteen and the E Street Band, James Bond and cars go so well together. They are an integral part of the Bond movie series.

    The first James Bond car we see is the Sunbeam Alpine Series II in Dr. No. However, the movie icon’s most quintessential car is the Aston Martin, which first appeared in the film Goldfinger in a DB5 version. I had one that fired little bullets in the front and a button easing shield in the back. The Aston Martin was then replaced by a DBS model in the movie On Her Majesty’s Secret Service.

    Despite switching to BMWs for several of Pierce Bronson’s Bonds, various Aston Martin models have dominated the Bond franchise, including The Living Daylights and most of the Daniel Craig films. I’ve already mentioned the Ford Mustang from Diamonds Are Forever, but they even had a Rolls Royce Silver Cloud II in From the Point of View of Murder. I had that model in my little kit too.

    There is even a Ferrari in the Goldeneye game. Every boy’s dream car, and I had some great kid versions. But one of my favorite Bond cars is the Lotus Esprit S1 from The Spy Who Loved Me. It even converted into a submarine, which was pretty cool.

    Ford Capri: The Professionals.

    As for other British cars, I always wanted to save up for a Ford Capri 2.8 Ghia, which was our likeness of the Ford Mustang. Basically a poor man’s version. I think you can see John Wayne driving the Capri version in the movie Brannigan, but I was mostly influenced by the British TV series The Professionals.

    Before I was done with the cars from the movies and my tiny collection, I had several Cadillac models. Cadillac was featured in many movies such as Goodfellas, Raging Bull and Fear and Loathing in Las Vegas. I also had a Lincoln Continental. It was the closest thing to a luxury car. I don’t know the exact model, but it was the longest toy car I ever owned and it had a lot of doors. I’m sure this car has appeared in movies, but I can’t name any.

    I realize I haven’t mentioned two very famous cars from the movies – the De Loren from Back to the Future and the famous Batmobile – but I always thought of them as cartoon cars rather than real cars. And this is coming from the man who just talked about “Chitty Chitty Bang Bang.” How hypocritical and inconsistent, I know. Who ever heard of a rocket car or a shield car? Next time they’ll put wings on it!

    What other great movie cars did I miss? Here’s a song about cars that will make you think.

    Read more / Original news source: https://manipurhub.com/step-on-the-gas-pedal-307/

    The secret power of old family photo albums.

    The surprisingly powerful story behind a simple family photo. A picture is worth a thousand words, says an old proverb. This overused expression exists in many different languages and expresses the power of a single still image like the one below to convey complex, sometimes multiple ideas. Here, for example, is this one. Okay, I […]

    The surprisingly powerful story behind a simple family photo.


    A picture is worth a thousand words, says an old proverb.

    This overused expression exists in many different languages and expresses the power of a single still image like the one below to convey complex, sometimes multiple ideas.

    Here, for example, is this one.

    Okay, I know what you’re thinking.

    At first glance, this image may seem like an unfortunate example.

    But in fact, this humble family snapshot from a bygone era hides a surprisingly large piece of Italian history.

    Family jewel.

    The photo was taken between 1963 and 1964 and is in my family album. It shows my grandparents, my young father and my uncle in Sunday clothes posing with my grandfather’s new car, a Fiat 1100D.

    This model (which enjoyed great success in India long after production ceased in Italy in ’66) was introduced in the fall of 1962. It may not look very attractive to a modern person, but Grandpa had every reason to be proud of his little Fiat sedan.

    Humble origins.

    And that’s because my grandfather was born in a small Sicilian village in the mid-1920s. Despite the megalomania of the fascist regime of that era, Italy was far from a rich country in those days.

    About 20% of the population remained illiterate, and living conditions in the southern regions had hardly improved since the reunification of Italy a few decades earlier. As my grandfather told me, even the thought of ever owning his own car was simply unfathomable to him in his youth.

    The Big Boom.

    Like many of their peers, my grandparents left Sicily after World War II in search of a better future in Northern Italy.

    There was plenty of work to be done in the industrialized north as the entire country sought to rise from the ashes of a lost war, and it must be said that this collective effort (supported by the Marshall Plan) yielded some truly impressive results.

    Between 1951 and 1963, Italy’s GDP grew at an average annual rate of 5.9% as the country transformed from a predominantly agrarian society to a modern industrialized economy.

    It also meant that Italians could now afford cars – lots of cars.

    Between 1954 and 1964, the number of cars on Italy’s roads rose from 700,000 to more than 5 million. In fact, people were buying cars faster than the government had time to mint license plates for them.

    It’s telling that the photo was taken when Grandpa’s 1100D was brand new. That’s because he was wearing temporary plates, which allowed him to drive the car while waiting for the real plates, since it could take weeks to get them.

    A proud accomplishment.


    Knowing where my grandfather came from, this photo takes on a whole new meaning: it immortalizes a moment of pride, of achieving a level of personal well-being that could not even have been imagined a few years before.

    Having grown up and having everything I wanted and more, I can’t imagine how good my grandfather felt that day.

    I wish I could still ask him about it.

    Read more / Original news source: https://manipurhub.com/the-secret-power-of-old-family-photo-albums-305/

    Tesla Model S vs Model X: which is the better choice?

    Tesla Model Sw is the original cool electric car, characterized by a sleek and stylish design and capable of huge speeds. But there is another premium car in Tesla’s lineup that is also very fast and also offers a lot more space. The Tesla Model X has the same design aesthetic as other Tesla cars, […]

    Tesla Model Sw is the original cool electric car, characterized by a sleek and stylish design and capable of huge speeds. But there is another premium car in Tesla’s lineup that is also very fast and also offers a lot more space. The Tesla Model X has the same design aesthetic as other Tesla cars, as well as a heavy-duty electric motor and some other features that you won’t find in any other Tesla car.

    But that doesn’t mean it’s better than the Model S. In fact, it’s not – they’re just different. But which is the better option for your needs? Let’s take a look at these two cars and what makes them different – or the same.

    Design.

    Perhaps the most noticeable difference between these two cars is their design. The Model S is a more compact sedan, while the Model X is positioned as an SUV (though perhaps more of a crossover). Regardless of the marketing, however, the Model X is, in fact, much larger than the Model S.

    Nevertheless, they do have similarities. Both cars share a similar overall design approach, meaning they exemplify Tesla’s minimalist design language that is common across all of its vehicles. Both cars have relatively thin headlights both front and rear, as well as a glass roof that allows the driver to easily see the top of the car. Both cars look quite nice, even though their design is getting a bit old.

    However, the Model X has some other design touches as well. For example, the Model X’s rear doors are what’s known as “gull wings,” meaning they open upward instead of outward. This makes the aperture much larger, which means more room to get in and out of the car, as well as to install child seats. Besides, it just looks cool.

    Despite the cool features, the Model X doesn’t necessarily offer a radically different design than the Model S. There’s a tie here.

    Interior and Technology.

    The cars’ interior designs are also fairly similar – except for obvious differences, such as the extra space in the Model X. The minimalist approach is maintained inside the cars as well, with sleek dashboard lines and an almost complete lack of physical controls like climate control and multimedia playback. Both cars can be equipped with a traditional steering wheel or steering yoke.

    As you would expect from Tesla, the car is very technologically advanced. As mentioned, most of the car’s controls are built into the infotainment system, including things like air conditioning. Some feel that a sleeker dashboard is worth the cost of having these controls built into the software, while others prefer to be able to turn a knob to control the infotainment system. Tesla’s built-in maps, media controls, and even apps like Netflix can be accessed through the infotainment system (while the car is charging, of course). Apple CarPlay and Android Auto are not offered in these cars, so Tesla’s own software will have to be used.

    Both cars offer access to Tesla’s autonomous technology, though you’ll have to pay for basic features like lane alignment and adaptive cruise control. The price for these features is the same for both cars.

    Both cars have a very similar approach to interior and technology, so that’s another draw.

    Performance.

    Electric cars in general benefit from instantaneous response times, and the Model S and Model X are among the best electric cars to date.

    At the time of writing, the Model X was available in two variants – the standard Model X and the Model X Plaid. The standard Model X with two motors and all-wheel drive accelerates to 60 mph in an impressive 3.8 seconds. The three-engine Model X Plaid, on the other hand, gets to 60 mph in an incredible 2.5 seconds. That’s very fast.

    But not as fast as the fastest Model S. The Model S also comes standard and the Model S Plaid, with two or three engines, respectively. The standard Model S accelerates from 0 to 60 mph in just 3.1 seconds, while the Model S Plaid accelerates in 1.99 seconds. By that metric, it’s literally the fastest production car to date.

    Range and charging.

    Tesla doesn’t boast the longest range among electric cars – that title currently belongs to the Lucid Air. But overall, its cars are at the top of the list of electric cars with the best range. The Model X has a range of 348 miles for the standard Model X or 333 for the Model X Plaid.

    But, again, the Model S bumps that figure up a bit. The Model S Plaid has a 396-mile range, which is excellent, but the base Model S has an even better 405-mile range. Again, this is one of the longest-lasting electric cars.

    Both cars can charge at up to 250 kW, which is pretty fast – though not as fast as cars like the Kia EV6 or Hyundai Ioniq 5. You’ll be able to charge the Model S and Model X in about 30 minutes on a Supercharger that supports a 250 kW charging rate.

    Price and availability.

    Both the Tesla Model S and Model X are available right now, so you can get one for yourself if you want. Admittedly, their prices are slightly different.

    The Model S starts at $71,090 for the standard Model S or the more expensive $86,090 for the Model S Plaid. The base Model X is slightly more expensive than the base Model S at $76,090, but the Model X Plaid costs the same as the Model S Plaid at $86,090. So if you’re willing to shell out the money for the super-fast Plaid, you’ll have to choose between the extra space and higher speed, but not the different price.

    Still, since the base Model S costs less, it gets the win.

    Overall winner: the Tesla Model S.

    The Tesla Model S is faster and cheaper than the Model X, but that doesn’t mean it should be chosen over the Model X. I recommend going based on what size car you need, not things like speed. At the end of the day, both cars are still very fast. If you need a little more space – for example, if you have a family – then you should probably choose the Model X over the Model S. But if you don’t need a lot of space and can save a little money, the Tesla Model S might be a better option.

    Read more / Original news source: https://manipurhub.com/tesla-model-s-vs-model-x-which-is-the-better-choice-301/

    Revolution in electric vehicles: Magnetic-free motors from German innovators.

    As part of the automotive industry’s latest turn toward sustainability, German companies MAHLE and ZF Friedrichshafen have taken the lead by developing innovative magnet-free electric motors. This technological leap could mean a dramatic change in electric vehicles (EVs), traditionally dependent on rare-earth magnets. How magnetless motors are powering the future. Disadvantages of traditional motors for […]

    As part of the automotive industry’s latest turn toward sustainability, German companies MAHLE and ZF Friedrichshafen have taken the lead by developing innovative magnet-free electric motors. This technological leap could mean a dramatic change in electric vehicles (EVs), traditionally dependent on rare-earth magnets.

    How magnetless motors are powering the future.


    Disadvantages of traditional motors for electric vehicles.

    Despite their green credentials, electric vehicles face challenges such as limited range and dependence on expensive rare-earth elements used in permanent magnet (PM) motors. These PM motors, while efficient, run on materials such as neodymium due to the high cost of mining it and geopolitical supply risks – mainly due to China’s dominance of the market.

    The advantage of magnetless motors.

    In contrast, the latest magnetless induction motors developed by MAHLE and ZF are economical, reliable and free of rare earth elements. The modern design utilizes copper field coils, eliminating the need for permanent magnets. This approach not only addresses the ethical and environmental concerns associated with rare earth element mining, but also avoids geopolitical risks.

    MAHLE’s groundbreaking design.

    MAHLE engine efficiency exceeds 96%, which is on par with even Formula E powertrains. This is achieved through contactless, wireless energy transfer from the stator to the rotor, minimizing energy loss and mechanical wear. Such a system promises to reduce cost and improve reliability, potentially increasing the range of electric vehicles and reducing “range anxiety” among users.

    Compact and powerful ZF engine.

    ZF Friedrichshafen takes a different approach, offering a synchronous motor with inductive excitation inside the rotor that dispenses with the physical contacts common in traditional designs, increasing reliability and power density. Designed to integrate seamlessly into a variety of vehicle types, this motor occupies the same footprint as PM motors, giving manufacturers the flexibility to switch to it without changing vehicle architecture.

    Electronic Drive Platforms: Next Step.

    ZF plans to use these motors in its e-drive platform, offering both 400-volt and 800-volt versions for standard and fast-charging vehicles. By utilizing silicon carbide chips in the 800-volt version, ZF is positioning itself as an efficient and durable manufacturer in the high-powered electric vehicle market.

    Implications for the electric vehicle market.

    These developments by MAHLE and ZF could lead to EV vehicles that are not only more environmentally friendly and socially responsible, but also more affordable for the average consumer. By solving the range problem and reducing dependence on rare earth elements, these magnetless motors could accelerate the mass adoption of electric vehicles.

    Is there a topic you’d like to discuss with us? Let us know!

    Note: Our content is for entertainment purposes, sourced from the latest news, rumors, and intriguing speculation.

    Read more / Original news source: https://manipurhub.com/revolution-in-electric-vehicles-magnetic-free-motors-from-german-innovators-294/