How much transmission fluid does the Ford Edge require?

The 10th digit of a car's VIN represents the production year, which could be either a number or a letter. Here are the details: 1. A car's VIN, also known as the Vehicle Identification Number, consists of 17 digits. The letters I, O, Q, Z, and U are not used. It serves as the car's unique identifier. 2. Generally, the VIN can be found on the car's frame, engine, vehicle certification, and insurance documents. 3. For production countries: 1 and 4 represent the United States, 2 represents Canada, 3 represents Mexico, 6 represents Australia, 9 represents Brazil, J represents Japan, K represents Korea, L represents China, S represents the United Kingdom, T represents Switzerland, W represents Germany, Y represents Athens, and Z represents Italy.

Manual transmission driver's license is coded as C1. A C1 license permits driving small and micro passenger vehicles, as well as light and micro cargo vehicles, and light, small, micro special operation vehicles. For the above vehicle types, drivers holding a C1 license can operate both manual and automatic transmission vehicles. Here is some relevant information: 1. Compared to manual transmissions, automatic transmissions are generally more expensive. It is understood that manual transmissions have a relatively simple structure, making them easier and cheaper to manufacture and maintain; automatic transmissions have a more complex structure, resulting in higher manufacturing costs and greater difficulty and expense in maintenance. 2. In practical use, because automatic transmissions involve less manual operation, they are less prone to failure. Generally, automatic transmissions only require regular replacement of transmission fluid; whereas manual transmissions, in addition to regular transmission fluid changes, also require clutch plate replacements based on wear and tear. Therefore, over a longer period, the frequency and cost of maintenance for manual transmissions are not necessarily lower.

Car shaking and lack of power during acceleration are generally caused by severe carbon buildup in the engine throttle, ignition system issues, worn spark plug electrode gaps, aging engine components, incomplete combustion of the air-fuel mixture, or unstable fuel pressure. It is recommended to promptly visit a 4S shop to diagnose the specific issue and ensure driving safety. Detailed causes and solutions for car shaking and lack of power during acceleration are as follows: 1. Severe engine carbon buildup: The most common cause of car shaking is a dirty throttle or excessive carbon buildup in the fuel injectors. When there is too much carbon inside the engine, the gasoline sprayed by the cold-start injector is largely absorbed by the carbon deposits, resulting in an overly lean air-fuel mixture during cold starts and making it difficult to start. In this situation, the car will only start easily once the carbon deposits become saturated with gasoline. After starting, the gasoline adsorbed on the carbon deposits is drawn into the combustion chamber by the engine's vacuum suction, making the air-fuel mixture too rich. This fluctuation between lean and rich mixtures causes idle shaking after a cold start. The lower the temperature, the more fuel is needed for a cold start, and the presence of carbon deposits will significantly affect the success of the cold start. Solution: Clean the fuel system and check if the idle control valve has carbon buildup, which should be cleaned if necessary. 2. Ignition system issues: Inspect the condition of the spark plugs, high-voltage wires, and ignition coils. Poor performance of the ignition system or weak spark plug firing can also lead to such symptoms. Solution: Check if the spark plugs have excessive carbon buildup and replace them if necessary. 3. Unstable fuel pressure: If you have already cleaned the engine carbon deposits, throttle body, replaced gaskets, and spark plugs but still experience idle shaking, it is recommended to visit a 4S shop to check the fuel supply pressure and the intake pressure sensor. Abnormal fuel pump pressure or faulty readings from the intake pressure sensor can cause the car to shake. Solution: Check the fuel pressure and replace components if necessary. 4. Aging engine components: Car shaking can also be related to worn engine mounts. Engine mounts act as the engine's shock absorption system, absorbing minor vibrations during operation. If the engine mounts are faulty, these vibrations will transfer to the steering wheel and cabin, causing shaking at idle.

The Passat should use 95-octane gasoline, as this fuel grade is recommended in the vehicle's official owner's manual. In addition to checking the appropriate gasoline grade in the owner's manual, you can also find it marked on the fuel tank cap. Typically, the gasoline grade can also be determined based on the engine's compression ratio. Vehicles with an engine compression ratio between 8.6-9.9 should use 92-octane gasoline, while those with a ratio between 10.0-11.5 should use 95-octane gasoline. If the compression ratio is even higher, 98-octane gasoline is recommended. However, with the use of some new technologies, the compression ratio alone cannot solely determine the appropriate gasoline grade, as high-compression engines can also be tuned to use lower-octane gasoline. This is because other factors, such as ignition timing, turbocharging technology, and Atkinson cycle technology, also play a role. Generally, the higher the gasoline grade, the higher the octane rating and the better the anti-knock performance. 92-octane gasoline contains 92% isooctane and 8% n-heptane, while 95-octane gasoline contains 95% isooctane and 5% n-heptane. If the Passat occasionally uses the wrong gasoline grade, simply switch back to the correct grade after the tank is empty. However, long-term use of the wrong gasoline grade can have the following effects: For vehicles designed for lower-octane gasoline, using a higher-octane grade will not cause damage, but the increased octane rating can alter the fuel's ignition point, leading to delayed combustion in the engine. This reduces the engine's power output and thermal efficiency, resulting in poorer performance. For vehicles designed for higher-octane gasoline, using a lower-octane grade can cause engine knocking. The significantly lower octane rating lowers the fuel's ignition point, causing premature ignition during the compression stroke. If combustion occurs before the spark plug fires, resistance will arise during the upward stroke. This resistance makes the engine run very unevenly. If the knocking is mild, it may only increase noise without significant engine damage. However, noticeable knocking indicates severe engine conditions, affecting not only driving stability but also causing abnormal wear on pistons and cylinders, potentially leading to severe engine damage like cylinder scoring.

The implementation of new standards for motor vehicle environmental exhaust emission testing has resulted in many vehicles failing the environmental inspection. If a vehicle fails the environmental inspection, it may be due to blockage or poisoning of the catalytic converter, which requires cleaning or replacement. Generally, after treatment, most vehicles can meet the standards. Below are the specific reasons for failing the annual exhaust emission test: 1. Poor fuel quality. If low-quality fuel is frequently used, it can lead to the accumulation of a large amount of carbon deposits after combustion, which may affect the performance of the exhaust purification system, reduce its service life, increase pollutant emissions, and result in unqualified exhaust emissions. Therefore, before the annual inspection, it is advisable to fill up with high-quality gasoline and drive on the highway before testing. 2. Blockage or poisoning of the catalytic converter. If the vehicle is frequently driven at low speeds or uses inferior fuel, the catalytic converter may become blocked or poisoned. In this case, you can purchase a professional cleaning agent to remove and clean the catalytic converter, or drive at high speeds for a distance, as high-speed driving has a significant effect on cleaning the engine's fuel system and cylinders. Moreover, at high engine speeds, fuel combustion is more complete, which helps flush out dirt and impurities from the fuel system and can remove carbon deposits from the valves, making blocked passages smooth and achieving a cleaning effect.

The tread pattern on the tire surface directly affects the friction with the ground during driving, and also influences the vehicle's handling and tire noise. Compared to regular tires, quiet tires adjust the tread pattern to effectively disperse noise when in contact with the ground.