What is the 0-100 km/h acceleration time of the Mercedes-Benz A45 AMG?

Car anti-theft device installation method is: 1. For the connection of the power interrupter, first confirm the ignition wire, fuel pump control wire, and starter wire before choosing which circuit to disconnect (disconnecting the starter wire will disable the anti-robbery function). The anti-theft main unit's input ON wire should be connected to the upper end of the disconnected circuit; 2. Find a suitable location to install the main unit (excluding air conditioning vents) and carefully observe the structure of the decorative panel; 3. When connecting the door switch detection wire, connect it to the dome light control bus (four-door bus); 4. First confirm the original car's central control triggering method, use signal docking with the original car, and try to minimize the use of positive circuit connection methods. The car anti-theft device features mobile phone control, SMS positioning, remote monitoring, remote alarm, and full voice prompt operation.

Shutting off the engine in neutral gear does not harm the car. Methods to save car fuel: 1. Try to avoid sudden braking; maintain a safe distance from the vehicle ahead while driving and avoid frequent braking. 2. Park in the shade whenever possible. If parking in the sun, do not immediately turn on the air conditioning after driving. First, open the windows to let the flowing air take away the heat inside the car, then turn on the air conditioning for better fuel efficiency. 3. Make turns smoothly and steadily. When deceleration is needed, use engine braking by easing off the throttle, shifting to a lower gear, and applying the brakes while engaging the clutch. Neutral gear typically refers to the state where the vehicle's gear lever is not in any forward or reverse position, completely disengaging the transmission from the drive wheels.

The differences between BMW 330 and 320 lie in the engine model, transmission, and dimensions. Below are the details regarding the differences between BMW 330 and 320: Different Engine Models: The BMW 330 is equipped with a B48 model 2.0T engine; the BMW 320 is equipped with a four-cylinder engine. Different Transmissions: The BMW 330 uses a ZF 8AT Steptronic automatic transmission; the BMW 320 uses a 6-speed automatic transmission. Different Dimensions: The BMW 330 measures 4719mm in length, 1827mm in width, and 1459mm in height, with a wheelbase of 2851mm; the BMW 320 measures 4829mm in length, 1827mm in width, and 1463mm in height, with a wheelbase of 2961mm.

Here are the specific differences between Honda Vezel and XRV: Appearance: The XRV has a more youthful design, while the Vezel leans more towards a family-oriented style. The interior configurations of both cars are identical. Brand: The Vezel is a model under GAC Honda, while the XRV is a model under Dongfeng Honda. Here are some extended details about the Honda Vezel: Body dimensions: The Vezel measures 4340mm in length, 1790mm in width, and 1605mm in height, with a wheelbase of 2610mm. Power: The Vezel is equipped with a 1.5T turbocharged engine, delivering a maximum horsepower of 177Ps, a maximum power of 130kW, and a maximum torque of 220N·m, paired with a CVT continuously variable transmission.

The reasons for a car suddenly stalling while driving are: 1. Electrical circuit failure: Stalling due to low-voltage power interruption during driving. Check the ignition and starter switches as well as the fuse box; 2. Low-voltage circuit short circuit causing stalling: In this case, the stalling is intermittent. Inspect the low-voltage circuits; 3. Component failure: Issues with the ignition coil, capacitor, or electronic ignition module. The car may start initially but stalls after a while, then starts again and stalls once more; 4. Fuel system failure: Damaged fuel pump, ruptured fuel line, clogged carburetor fuel inlet, or empty fuel tank. In such cases, the car is difficult to restart; 5. Ignition system: Problems with the engine overheating or anti-knock system can also cause stalling.

The most stable and durable transmission does not yet have a definitive conclusion. With advancements in technology, the durability and reliability of transmissions are gradually improving. Common transmissions on the market today include MT (manual transmission), AT (mechanical automatic transmission), CVT (continuously variable transmission), DCT (dual-clutch transmission), and AMT (automated manual transmission), among others. MT Manual Transmission: Also known as a manual gearbox. It requires the driver to manually shift the gear lever to change the gear engagement inside the transmission and use the foot to control the clutch engagement level to alter the gear ratio, thereby achieving gear shifting. The clutch must be depressed to shift the gear lever. If the driver is skilled, a car with a manual transmission can accelerate and overtake faster than an automatic transmission vehicle and is also more fuel-efficient. The advantages of this transmission are its affordability and the driving pleasure it offers. AT Mechanical Transmission: It uses planetary gear sets and a torque converter for gear shifting, replacing the traditional clutch and freeing the driver's left foot. It can determine the optimal gear based on parameters such as speed, throttle, and driver commands. Due to its low fuel consumption and economic efficiency, it is favored by Japanese automakers. However, the downside of this transmission is the noticeable gearshift jerkiness. It can control the clutch engagement and disengagement, tasks originally performed manually by the driver. CVT Continuously Variable Transmission: Unlike MT and AT transmissions, CVT does not use gear-based transmission but connects the input and output shafts via a steel belt to achieve gear ratio conversion. This design gives CVT transmissions the smoothest performance among all transmission types, along with a simple structure and easy maintenance. However, the long-standing criticism of CVT transmissions is their lower transmission efficiency and inability to handle excessive loads, which can lead to slipping.