The Hidden Weakness In Your Safety Click

Most drivers think the click of a seat belt means they are safe. But the click is only half of the story. If the metal part holding the belt to the car frame fails, the belt becomes a loose ribbon. Security is not just a sound; it is a solid bond to the steel of the vehicle.

Catch up quick

• Hyundai is calling back 294,128 cars in the United States right now.
• The problem involves the bolts that hold seat belts in place for the driver and the front passenger.
• If these bolts come loose, the belt will not hold you during a crash.
• Affected cars include the Ioniq 6, the Genesis G90, the Santa Fe, and the Santa Fe Hybrid.

Cracking the code

Understanding the mechanics of this failure reveals why a simple bolt is so critical.

Inside the walls of the car, a small anchor holds your life in place.

In the affected vehicles, this anchor might snap away from the body of the car. During a sudden stop, this metal piece must hold back thousands of pounds of force.

But because of this defect, the metal could let go, and the person in the seat flies forward without any protection from the belt. Beyond the cabin walls, the scale of this fix shows a massive gap in how parts are put together across different manufacturing lines.

Under the pressure of a crash, every inch of steel must act perfectly; however, for those impacted, that steel might not do its job. This is a rare look at how one small part can put thousands of lives at risk across many different types of cars. To address these vulnerabilities, authorized repair shops have initiated a specific safety protocol.

Workers will look at each bolt to see if it fits right.

They will add more strength to the anchors or swap them for new parts, performing these services at no cost to the owner.

Since the safety of the car is at stake, the fix is a top priority for the brand to protect the trust people put in these modern, high-tech machines.

Despite the necessity of the repair, official notification letters will not reach mailboxes until June 5, 2026. This timeline leaves a significant window where motorists may be driving without knowing the danger.

Owners can check their status now by using the Hyundai service site or calling the hotline.

Because the risk is high, waiting for a letter might be a bad idea, as every trip until the fix is a gamble with the car's safety frame.

Why Simple Bolts Fail In High Tech Cars

When we look at the data from the NHTSA, we see that even the most advanced cars fail at the basics.

The Ioniq 6 is a marvel of electric power, yet it suffers from a problem as old as the first car. This shows that as cars get smarter, the physical parts still need the most care. Reliable sources like Consumer Reports often point out that "build quality" is the first thing to drop when companies rush to make more cars. In this case, the rush to build more SUVs and EVs may have led to a simple bolt being ignored on the factory floor.

New Material Regarding Vehicle Safety Systems

Recent tests by the Insurance Institute for Highway Safety show that rear-seat safety often lags behind the front.

However, this recall proves that even the front seat is not always a sure thing.

Many people do not know that seat belt pretensioners can also explode if they are not built right, a problem Hyundai faced in older models.

Since 2020, the number of recalls for basic hardware like bolts and latches has gone up by nearly fifteen percent across the whole car world.

This trend suggests that supply chains are struggling to keep up with high demand.

Don't miss this out

• Check your VIN on the NHTSA website immediately to see if your car is on the list.
• Keep your speed low and avoid sudden stops until a dealer checks your seat belts.
• Look for a local Hyundai or Genesis event where safety experts explain how anchors work.
• Sign up for digital alerts from the car maker to get news faster than a paper letter.

Main Objectives ()

Genesis wants to change how you feel about electric cars. They created the Magma division to build high-performance vehicles that do more than just go fast in a straight line. The main goal for the GV60 Magma is to give the driver a physical connection to the machine. By using a specialized Virtual Gear Shift, the car mimics the feel of a gas-powered engine to create a sense of mechanical soul. This car proves that electric power can still be a riot for the senses.

However, this visceral experience did not appear out of thin air; it was first refined through rigorous real-world testing by Genesis's parent company.

Beta Test Section

Before this luxury model arrived, the Hyundai Ioniq 5 N served as the testing ground for these wild ideas. Engineers spent years perfecting the "N e-shift" system to see if drivers would actually enjoy fake gears. They found that people drive better when they have shift points to aim for. Because the test was a hit, Genesis decided to bring the tech into the luxury world. It is a proven system dressed in a much fancier suit.

The success of this experiment is now triggering a shift across the automotive landscape, influencing how competitors view the future of EVs.

Ripple Effect Section

This tech is moving the entire car industry in a new direction. For a long time, electric cars were silent and smooth, which some people found boring. Now, other brands are looking at how software can make a battery feel like a combustion engine, turning the electric vehicle into a digital playground. Driving just became a video game you can sit inside.

To understand why manufacturers are embracing this digital approach, we must look at the specific functional benefits that artificial feedback provides to the person behind the wheel.

Did anyone ever explain why

• Drivers use the sound of the engine to know when to slow down for a corner.
• Physical jolts from virtual gears help the human brain track acceleration better than a smooth pull.
• Paddle shifters give the driver something to do with their hands during a spirited drive.
• Software allows one car to feel like five different types of engines with a simple update.

These functional benefits highlight a deeper fundamental requirement for the modern motorist that goes beyond simple transportation.

The Human Need for Mechanical Noise

In our quest for quiet cars, we forgot that humans love feedback. According to studies on driver psychology, we rely on sound and touch to stay safe on the road. Without the roar of an engine or the click of a gear, we lose our sense of how fast we are really going. This isn't just a gimmick; it is a way to keep our brains engaged while we travel at high speeds.

Turning these psychological needs into a functional reality required a massive effort from the technical departments responsible for the car’s sensory output and hardware durability.

Inside the Sound and Heat Lab

Behind the scenes, teams of sound designers worked with racing drivers to create the perfect fake exhaust note. They did not just use a recording of a loud car. Instead, they built a digital instrument that changes its pitch based on your foot's position. To handle the massive 650-horsepower output, the GV60 Magma uses a special battery cooling system that keeps the power steady.

During hard driving, the car manages heat so the virtual shifts stay sharp and fast. It is a masterpiece of thermal engineering hidden under a bright orange paint job.

Rear-Wheel Drive Cars: Balance & Smooth Rides

A front-wheel drive car pulls itself forward like a determined sled dog, but a rear-wheel drive car pushes from behind like a powerful runner. In this setup, the engine sits at the front and sends its energy down a long spinning rod to the back tires. This leaves the front wheels with only one job: to point the car in the right direction. By splitting the tasks of moving and steering between the front and back, the car achieves a level of balance that is the secret to a smooth ride. This balance is maintained by the mechanical components managing how power reaches the pavement. Beneath the metal body, a heavy box called a differential sits between the two back wheels. It uses a set of teeth and gears to let the left wheel spin faster than the right wheel when the car turns a corner. Without this clever box, the tires would scrub and slide across the pavement like a pair of stiff boots. Engineers pick specific gear sizes to decide if the car will be a quick sprinter or a fast long-distance traveler, as one small change in these gears changes the whole mood of the drive. Beyond the gears, the physical placement of the motor further refines the experience. Within the engine bay, the motor often sits further back toward the driver to keep the weight even. When you press the gas pedal, the weight of the car naturally shifts to the back, squashing the tires against the road. This extra pressure gives the wheels more grip to move the car forward without slipping. Physics is a quiet friend to the rear-wheel drive, and this physical advantage also addresses a specific handling characteristic that manufacturers once kept quiet.

The Inside Scoop

For years, car makers hid a secret about why they love this design. They found that rear-wheel drive prevents a scary feeling where the steering wheel jerks to one side during a fast start. In cars where the front wheels do all the work, the power can fight your hands for control. By moving the power to the back, the steering stays light and honest, allowing the person behind the wheel to feel every tiny pebble on the path. While these traditional benefits were once reserved for high-performance gasoline vehicles, the world of electric cars is now changing everything we knew about these specifications.

Driving the news

Since electric motors are small and flat, designers are placing them directly on the back axle to save space. This removes the need for a bulky tunnel running through the middle of the cabin floor. Now, even small family cars can have the sporty feel of a race car because of where the motor sits. Building on this electric foundation, even more advanced systems are beginning to appear.

New Ways Wheels Move in 2026

As of April 2026, a new type of "active" rear axle is appearing in showrooms. These axles use tiny magnets to change how stiff they are a thousand times every second. During a sharp turn, the car stays perfectly flat instead of leaning like a boat in a storm. Also, new solid-state batteries are making these cars much lighter than the heavy electric cars of five years ago. This lightness makes the rear-wheel push feel even more snappy and bright. Despite these technological advancements, a long-standing debate continues regarding the practicality of this layout for the average driver.

The Hidden War Over Moving Parts

For decades, a loud argument has lived inside the walls of big car companies. Some experts claim that rear-wheel drive is too tricky for normal people to drive on snowy or wet streets. They say the back of the car can slide out like a wagging tail, which might frighten a new driver. However, groups like the Insurance Institute for Highway Safety show that modern computer brains in cars stop this from happening before the driver even notices. Despite this safety, some companies still cut corners by using front-wheel drive because it is cheaper to build. This fight between making a car feel good and making it cheap never ends.

The Mystery of the Spinning Hubs

1. If a car has its motor in the middle but only the back wheels move, is it still a rear-wheel drive car?

2. Can a car with rear-wheel drive climb a hill of wet glass if it has no tires?

Hypothetical Answers:

1. Yes, because the power delivery defines the name, not the motor's home.

2. Only if the car uses air pressure to push itself upward against the slope.

Additional Reads:

• The Balance of Power (Mechanical Weekly)
• Friction and Glass Surfaces (Physics for All)
• The History of Middle Engines (The Driver's Journal)
• How Air Moves Heavy Objects (Science Today)

Mitsubishi Heavy Industries Sees Massive Growth Amid Innovation

Across the Tokyo Stock Exchange, the numbers for Mitsubishi Heavy Industries tell a story of massive growth that is hard to ignore. Over the last year, the stock price jumped more than ninety percent, leaving most of the market in the dust. And when you look at the five-year chart, the gains are even more startling for a company of this size. Investors are currently watching a price near ¥4,781 while experts keep pointing toward a target of ¥5,326.

This gap suggests that even after a huge run, there might still be some room left on the table.

This momentum is fueled largely by a massive surge in project commitments and a record-breaking order backlog.

Zoom In

In the world of big machines, the order backlog is the most important number you can find. Mitsubishi Heavy has built a mountain of promised work that totals trillions of yen. By the start of 2024, their order intake hit record levels because countries are suddenly very interested in defense and clean energy. They are not just building parts; they are building the future of how nations protect themselves.

For example, Japan is doubling its defense budget to two percent of its GDP, and Mitsubishi is the primary contractor for many of those new projects.

They are the ones making the standoff missiles that will define the next decade of security.

Delving right into it

While defense provides a sturdy foundation, the company is simultaneously betting big on the way we get our power. Within the next few years, they plan to lead the world in "Small Modular Reactors," which are tiny nuclear plants that are much safer and cheaper to build.

But it is their gas turbine business that really brings home the bacon right now. They currently hold the top spot globally for heavy-duty gas turbines, which are essential for keeping the lights on as the world shifts away from coal. Because these turbines can eventually run on hydrogen, they are not just tools for today; they are tools for a carbon-free tomorrow.

Unlocking The Secret Power Of Future Engines

Beyond these energy solutions, Mitsubishi is looking toward the stars and the atmosphere to drive its next phase of innovation. Behind the factory doors, the H3 rocket program is finally finding its rhythm after years of tough testing.

After a successful launch in early 2024, the company proved it could compete with the biggest names in space.

This success means they can now offer cheaper ways to put satellites into orbit, which is a market growing faster than almost any other.

In the labs, they are also perfecting "Carbon Capture" technology that sucks pollution right out of the air at industrial sites.

Most people do not realize that Mitsubishi has already installed more of these systems than almost anyone else on Earth.

The High Stakes Of National Defense Contracts

However, this drive for innovation is balanced by the reality of past setbacks and future geopolitical complexities. The road has not always been smooth, and some people are still arguing about the company's biggest risks.

For years, critics pointed to the "SpaceJet" project, a passenger plane that the company eventually had to cancel after spending billions of dollars.

This failure created a huge debate among investors about whether the company should stick to what it knows or keep taking big swings at new markets.

Now, the company is working with the United Kingdom and Italy on a new fighter jet called the Global Combat Air Programme.

Some experts worry that working with three different governments will be too messy, while others say it is the only way to share the massive costs of modern tech. It is a high-wire act of diplomacy and engineering.

According to reports from Nikkei Asia, the pressure to deliver on these international promises is higher than it has ever been.

Digging Deeper Into The Data

To see how these broad strategies translate into market performance, it is essential to examine the specific economic drivers and data points behind their operations.

How does a weak yen help Mitsubishi Heavy Industries?

When the yen is weak, the products this company sells in other countries become much cheaper and more competitive. Since they sell gas turbines and airplane parts all over the world, they make more money when they bring those foreign dollars and euros back home. This has been a huge tailwind for their profits over the last two years.

You can see how currency shifts impact Japanese exporters at Reuters Markets.

What is the "Hydrogen Ready" strategy?

This is a plan to build power plants today that can switch from burning natural gas to burning hydrogen later without needing a total rebuild. It is a secret weapon for selling to countries that want to be green but aren't ready to give up gas yet. It makes their machines "future-proof." Learn more about hydrogen energy trends at the International Energy Agency.

Are they involved in making chips or semi-conductors?

Not directly, but they make the machines that keep chip factories running perfectly. Their precision machinery division creates tools used in the manufacturing process for many high-tech components. As the world builds more chip factories, Mitsubishi sells more support equipment.

Check out the latest on the global chip supply chain at Bloomberg Technology.

Market Rally Amid Middle East Ceasefire

Can a single piece of paper signed in a desert change how much money you have in your bank account?

Rolls-Royce shares just took off like one of their own jet engines. On Wednesday morning, the engineering giant saw its stock price jump by 10 percent. Investors are feeling brave again because of a ceasefire in the Middle East, and people are rushing back to buy this retail favorite.

Oil prices are crashing in the best way possible. Brent Crude fell by 15 percent to hit 94 dollars a barrel. Because the guns went silent, the fear of an energy crisis is fading fast. Natural gas is getting cheaper too. Lower fuel costs mean these massive engineering firms can operate without spending a fortune.

This rally is spreading across the whole market. Mining companies like Anglo American and Antofagasta are seeing their numbers climb. Even high-street names like Burberry and JD Sports are catching the wave. Money is moving back into the London Stock Exchange with real speed.

The FTSE 100 is finally glowing green.

This market-wide optimism is rooted in the stabilization of specific geographic pressure points that dictate the flow of global resources.

Beyond the headlines, the focus is on a tiny strip of water. The Strait of Hormuz is the world's most important chokepoint. One-fifth of all the crude oil on the planet moves through this narrow gap off the coast of Iran. If that water stays open, the global economy breathes. If it closes, everything stops.

The blind spot here is the human element on the ships. Captains are still waiting for the "all clear" before they sail into these risky waters. Shipping companies are being very careful because they do not want to lose a vessel.

It could take several weeks for the trade routes to look normal again.

Insurance costs for these ships are still sky-high.

While logistics remain cautious, the industrial sector is finally able to resume the technical maintenance schedules that keep the world moving.

The Legacy Of Power And Global Trade Routes

Rolls-Royce is not just a name on a luxury car; in fact, the engineering firm we are talking about does not even make cars anymore. They build the massive engines that power the world's largest long-haul airplanes. According to data from the International Energy Agency, the energy sector relies heavily on the stability of these trade routes to maintain engine maintenance schedules.

During the height of the tension, parts could not move freely.

Now, the supply chain is waking up. This operational recovery sets the stage for the next generation of aviation technology.

Did you ever wonder where we go from here?

The impact of this trade resumption goes far beyond just cheaper gas. With the Strait of Hormuz opening up, Rolls-Royce can speed up its testing of the UltraFan engine, which is the largest aero-engine in the world. This machine is designed to run on 100% Sustainable Aviation Fuel. Reports from Bloomberg suggest that as trade stabilizes, the company can finally move its heavy testing equipment across borders without the threat of seizure.

This means we might see carbon-neutral long-distance flights much sooner than we thought.

The engineering for our future depends on the politics of today.

The world is getting ready to fly again.

Turbocharged Dreams: Smooth Rides and Fiery Engines

What if you could sit inside a dream and steer it down a long, gray highway? A car is more than a tool for moving from one place to another. It is a private room that carries you through the world while you listen to the radio or think about the past. Beneath the floor and behind the dash, a complex machine works with perfect logic to keep you moving.

This machine relies on the engine to turn liquid energy into the physical force of a turning wheel.

In the quiet heart of the engine, small fires happen thousands of times every minute. These are not wild fires, but careful, timed bursts of heat. Inside metal tubes called cylinders, a mist of fuel meets a spark and pushes a heavy piston downward.

Because the pistons are connected to a long, spinning rod, this up-and-down movement becomes a circular motion.

It is a simple trick of physics that allows a heavy metal box to glide across the earth at high speeds.

Through the gears of the transmission, the engine shares its power with the wheels. You can think of gears like the different speeds on a bicycle. When you start moving, the car needs a lot of force but not much speed.

As you go faster, the gears shift to allow the wheels to turn quickly without making the engine work too hard. But if the gears do not match the speed of the car, the rhythm breaks and the machine struggles to breathe.

At the front of the car, a radiator works like a cooling fan for a hot summer day. Burning fuel creates a massive amount of heat that would melt the metal parts if left alone. A pump pushes a special liquid around the engine to soak up this extra heat. Then, the liquid flows into the radiator where the wind from the road cools it down again.

Without this constant circle of cooling, the engine would grow too hot and lock into a single, solid piece of useless iron.

While these major components drive the car forward, several quieter features refine the experience by managing the rhythm and sound of the journey.

Subtleties You Missed

Beside the engine sits a heavy wheel called a flywheel that acts as a memory for motion. This thick disc of metal keeps spinning between fuel explosions, using its weight to ensure the engine runs smoothly instead of shaking with every burst of power.

Without this counterbalance, the car would feel like a nervous animal constantly jumping forward.

Behind the scenes, the exhaust pipe uses the shape of sound waves to cancel out the loud bangs of the engine, turning a roar into a soft purr.

Beyond these mechanical weights and measures, the engine relies on microscopic protections and digital oversight to maintain its health.

Inside Scoop

Between the moving parts of the engine, a thin layer of oil prevents metal from touching metal. If you look at this oil under a glass, it looks simple, but it is the only thing stopping the engine from eating itself.

Engineers spend years studying how air flows into the engine because even a small change in the shape of the pipe can change how the car feels.

In the modern world, computers now watch every breath the engine takes.

They adjust the fuel and the spark every millisecond to make sure nothing is wasted.

This digital precision has paved the way for new ways to capture efficiency, even during the simple act of stopping.

Extra Perk

In many new cars, the act of slowing down actually creates energy. Instead of just rubbing the brakes together to get hot, the car uses the wheels to turn a generator. This process catches the energy of your movement and stores it in a battery for later use. It feels like getting a small gift every time you approach a red light.

To the driver, it just feels like a smooth stop, but the car is secretly saving power to help you climb the next hill.

As these technical efficiencies increase, they spark a deeper conversation about the relationship between the driver and the vehicle.

Debating The Soul Of The Modern Machine

Around the world, a fierce firestorm is growing between people who love manual gears and those who prefer computers to do the work. Many drivers argue that a manual car allows them to feel the soul of the machine. They believe that choosing the gear by hand creates a bridge between the human mind and the mechanical heart.

However, data from the United States Environmental Protection Agency shows that modern automatic systems are now much faster and more efficient than any human could ever be. This creates a conflict where the joy of driving a certain way clashes with the cold facts of saving fuel.

Under the surface of this debate, another argument rages about the sound of the engine itself. Some companies now play fake engine noises through the speakers because modern engines are too quiet for some drivers.

Critics call this a lie, while others say it makes the experience more beautiful.

According to reports from groups like the Society of Automotive Engineers, the move toward silent electric motors is changing how we think about "power." Many people find the silence of an electric car eerie, while others see it as the ultimate form of peace on the road. Is a car still a car if it does not make the sound of fire?

Understanding the philosophy of the car often leads to practical questions about how these machines handle the stresses of the real world.

Does the weight of the car affect how long the engine lasts?
Yes, because a heavier car requires the engine to work harder every time you press the gas. This extra work creates more heat and more friction over time. If two identical engines are put into a light car and a heavy truck, the engine in the truck will usually show signs of wear much sooner.

Can an engine run on something other than oil and gas?
In a pinch, some engines can run on vegetable oils or alcohols, but they are not built for it. Using the wrong liquid can cause the rubber seals inside the machine to swell or melt. For the engine to stay healthy, it needs the specific slipperiness and heat resistance of the fluids it was designed to use.

Why do cars feel different when the air is cold?
On a cold morning, the air is thicker and holds more oxygen. This allows the engine to burn fuel more effectively, which often makes the car feel slightly more powerful. However, the oils and fluids are also thicker when cold, so the machine must work against that thickness until it warms up to its normal temperature.

The Electric Truck Revolution: Power and Silence

A truck is a machine built for noise. It usually announces its arrival with the smell of old grease and the roar of exploding gas. But the electric truck moves like a shadow across a wooden floor. It possesses the strength to pull a mountain while remaining as quiet as a sleeping cat. It is a heavy paradox wrapped in steel.

This silence hides a surprising level of performance. In a normal engine, you wait for the power to build. You press the pedal, the gears shift, and the fuel burns.

With an electric motor, the power is simply there.

You touch the pedal and the truck jumps forward without a second of hesitation.

For instance, the Rivian R1T can reach sixty miles per hour in three seconds.

Speed is no longer a luxury for small cars.

Because the engine is gone, the shape of the vehicle changes. Under the front hood, where a loud motor used to sit, there is now a large empty space for your bags. This "frunk" stays dry and locked. On the Ford F-150 Lightning, this space is big enough to hold two bags of golf clubs or a week of groceries.

The removal of the traditional engine also impacts the longevity of the vehicle. Maintenance becomes a ghost of its former self. A gas engine has hundreds of moving parts that rub together and wear down. An electric truck has a fraction of those parts. There are no oil changes, no spark plugs to replace, and no mufflers to rust. You save money by doing nothing.

Functionality extends beyond the drive itself, especially when the power grid fails. During a power outage, your truck becomes a hero. You can plug your house into the side of the vehicle to keep your lights on and your food cold. Some trucks can provide power to a home for three days or more. It is a giant battery that happens to have wheels.

And then there is the matter of the brakes. When you lift your foot off the pedal, the motor turns into a generator. It slows the truck down and sends that energy back into the battery. This means you rarely have to touch the brake pedal in normal driving.

Simple Workflow for the Modern Driver

Beyond the mechanics of the drive, the daily routine of ownership shifts into a streamlined process.

• Plug the truck into a wall outlet before you go to bed. By the time you finish your morning coffee, the "tank" is full.
• Open a phone app to pre-heat the cabin while the truck is still plugged in. This saves battery power for the road.
• Input your destination into the navigation screen. The software automatically picks stops where the chargers are fast and the coffee is hot.
• Use the heavy weight of the battery to your advantage on gravel. The low center of gravity keeps the truck glued to the path.

The Heavy Load Stress Test

While the daily workflow is simple, these vehicles are also designed to handle rigorous environments. To truly understand this machine, you must take it to a steep mountain pass. Attach a trailer weighing five tons. In a gas truck, the engine would scream and struggle for air in the high altitude.

The electric truck does not breathe air, so it does not care about the height.

It pulls with the same steady force at the peak as it does at the beach.

Watch the heat gauge; the cooling systems in modern electric trucks handle the climb without breaking a sweat.

Gathering Your Thoughts on the Silent Shift

After experiencing that raw power on a mountain, the driver begins to notice the subtler changes in the cabin environment. We want to know how the silence affects your focus on long drives. In a quiet cabin, you might hear the world differently.

Does the lack of vibration make you feel less tired after five hours behind the wheel?

We are asking because the sensory experience of driving is changing, and your feedback helps bridge the gap between old habits and new reality.

Also, consider the "gear tunnel" found in some models; it is a storage spot that runs through the middle of the truck.

This design is only possible because there is no long metal rod connecting the front to the back wheels.

A Conversation on Energy and the Earth

While the interior experience is refined, the broader impact of the vehicle on the world remains a complex topic of debate. But the story is not perfect, and people often argue about the dirt involved in being clean.

According to the International Energy Agency, an electric vehicle requires six times the mineral inputs of a conventional car. This includes lithium, cobalt, and manganese.

Many people wonder if moving the pollution from the tailpipe to a mine in another country is a fair trade.

And yet, data from Reuters shows that battery recycling is becoming a massive industry.

Companies like Redwood Materials are now recovering 95% of the metals from old batteries to make new ones. This creates a circle where we stop digging and start reusing.

The debate is no longer about if we should switch, but how fast we can make the circle close.

The Hidden Architecture of Low Gravity

Regardless of the environmental debate, the physical foundation of the vehicle provides unique structural advantages. In a traditional truck, the heavy parts are high up or spread out. Most electric trucks use a "skateboard" chassis.

This means the heaviest part—the battery—is a flat slab at the very bottom.

Because of this, it is very difficult to tip an electric truck over in a corner.

It handles like a much smaller vehicle.

This design also allows for a perfectly flat floor inside the cabin, giving passengers more legroom than a luxury sedan.