1951 Ford F6 Flathead V8 Dump Truck No Reserve !!! on 2040-cars

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Ford Mustang Mach-E fails Sweden's moose test

The infamous moose test has claimed another casualty. This time it's the Ford Mustang Mach-E AWD Long Range, which was tested in an electric four-way alongside the Tesla Model Y, Hyundai Ioniq 5 and Skoda Enyaq iV (an electric utility vehicle closely related to the Volkswagen ID.4 that is sold in the United States). According to the Swedish testers at Teknikens Varld, Ford's electric car not only failed to hit the speed necessary for a passing grade, it didn't perform well at slower speeds, either. To pass the outlet's moose test, a car has to complete a rapid left-right-straight S-shaped pattern marked by cones at a speed of at least 72 km/h (44.7 miles per hour). The test is designed to mimic the type of avoidance maneuver a driver would have to take in order to avoid hitting something that wandered into the road, which in Sweden may be a moose but could just as easily be a deer or some other member of the animal kingdom elsewhere in the world, or possibly a child or car backing into the motorway. Not only is the maneuver very aggressive, it's also performed with weights belted into each seat and more weight added to the cargo area to hit the vehicle's maximum allowable carrying capacity. The Mustang Mach-E only managed to complete the moose test at 68 km/h (42.3 mph), well below the passing-grade threshold. Even at much lower speeds, Teknikens Varld says the Mach-E (which boasts the highest carrying capacity and was therefore loaded with more weight than the rest of the vehicles tested in this quartet) is "too soft in the chassis" and suffers from "too slow steering." Proving that it is indeed possible to pass the test, the Hyundai and Skoda completed the maneuver at the 44.7-mph figure required for a passing grade and the Tesla did it at 46.6 mph, albeit with less weight in the cargo area. It's not clear whether other versions of the Mustang Mach-E would pass the test. It's also unknown if Ford will make any changes to its chassis tuning or electronic stability control software, as some other automakers have done after a poor performance from Teknikens Varld, to improve its performance in the moose test. Related video:

Project Ugly Horse: Part VIII

Now With More EcoBoost
There's an EcoBoost 2.0-liter turbocharged four-cylinder in there somewhere, and it's headed straight for Ugly Horse.
For the second time in my life, I'm staring at an engine in the back of a truck with no concept of how to get it safely into the garage by my lonesome. The first time this happened, I dragged home a $300 International 345 V8 in the back of my Scout Terra only to discover that the bounds of my manliness terminated well before my ability to muscle that 800-pound cast iron block out of the pickup bed.

Translogic 174: Ford envisions the future of parking

Translogic visits Georgia Tech for a glimpse at the future of parking. First, we demo the Ford remote parking program by driving a golf cart around campus from the comfort of an off-site lab; think of remote parking as a virtual valet. Then we see how Ford's "parking spotter" works, a crowd-sourced way of finding an open space. Along the way, Translogic host Jonathon Buckley chats with Ford's global director of vehicle electrification and infrastructure, who explains how these innovative parking concepts could help us get around more efficiently. Have an RSS feed? Click here to add Translogic. Follow Translogic on Twitter and Facebook. Click here to learn more about our host, Jonathon Buckley. VIDEO TRANSCRIPT Jonathon: You turn the wheel and the cart turns the wheel because we've got to remember that the carts 150 meters down that way. I should use yards because I'm not in Australia any more. Welcome to Translogic. I'm Jonathon Buckley. Every year in this country we spend over 70 million hours looking for parking. We think that's a pretty miserable way to spend that time but Ford Motor Company and Georgia Tech have taken this problem head on by developing a parking spotter experiment and some pretty cool remote driving functions to go with it. When it comes to remote vehicle repositioning, you guys have been so far using golf carts?Mike: That's right.Jonathon: What's the goal with this type of technology?Mike: As you probably know, car sharing is becoming one of the emerging trends in mobility. With that, any type of sharing program that we looked at around the world, one of the common challenges it has is that during the end of the day, or the nighttime hours, there's something that has to happen to get all the assets back to where they need to be for the next day. Cell phone technology and broadband technologies have advanced so far that we can remotely control a vehicle from anywhere it the world. For example, we could actually take this and create a virtual valet. You and your significant other pull up to, say, a restaurant. You could potentially get out of the vehicle and then the call center could take your vehicle and park it for you. You wouldn't need to do anything [00:02:00] else other than arrive at the restaurant.Jonathon: The whole thing's pretty intuitive. It works exactly as you imagine a golf cart would work. The only difference that there really is is there's just a little bit of latency that you have to account for.