What is the fuel consumption of the H9?

It is necessary to repair scratched underbody paint, as severe scratches can puncture the oil pan, causing all the engine oil to leak out. Moreover, components such as the front suspension, front bumper, and exhaust pipe are particularly vulnerable to damage. The specific reasons are as follows: 1. The exhaust pipe, located at the bottom of the vehicle, is quite fragile: hitting hard objects like sharp rocks can even cause it to tear. Speed bumps are common and vary in height and shape. Some are higher or wider, and if drivers don’t slow down when going over them, the front bumper and exhaust pipe are likely to get damaged. 2. Bottoming out can cause scratches on the underbody: it can also lead to deformation of the underbody, and in severe cases, damage to the engine oil pan, though this is less likely. Scratched areas are prone to rust. 3. Brake fluid line leakage: most modern cars use hydraulic brake systems, and factory-installed brake lines are often made of rubber rather than metal or nylon. If bottoming out occurs, the first thing to check is whether the brake fluid line has ruptured. 4. Oil pan rupture: the oil pans of the engine and transmission are highly susceptible to cracking when bottoming out occurs, leading to oil leakage. This is the most easily noticeable damage, but it must be repaired promptly to avoid permanent damage to the engine.

If an electric vehicle suddenly stops running after passing through water, do not attempt to restart it immediately. Instead, park the vehicle in a safe area and let it dry for one to two hours to restore its performance. Additional Information: 1. Expert Reminder: Electric vehicle owners must assess the water conditions before driving through. For pure electric vehicles, the water depth should not exceed 30cm (15cm for battery-swapping vehicles), and the speed should be controlled below 10km/h. Always monitor the dashboard for any warning signals and drive cautiously. If the vehicle reports an insulation fault, stop immediately for inspection. 2. Reference: Electric vehicles are not suitable for passing through water deeper than half the tire height. In the absence of preceding vehicles or pedestrians as references, use the roadbed or other fixed objects to estimate water depth. If necessary, exit the vehicle and use an umbrella or branch to check the water depth. 3. Immediate Shutdown: Regardless of the electric vehicle's performance, owners should avoid driving through flooded areas whenever possible. Park the vehicle in an open, elevated area. If the vehicle stalls, do not restart it immediately. Instead, park in a safe area and let it dry for one to two hours to restore performance. If an electric vehicle suddenly stops running after passing through water, do not attempt to restart it immediately. Instead, park the vehicle in a safe area and let it dry for one to two hours to restore its performance. Additional Information: 1. Expert Reminder: Electric vehicle owners must assess the water conditions before driving through. For pure electric vehicles, the water depth should not exceed 30cm (15cm for battery-swapping vehicles), and the speed should be controlled below 10km/h. Always monitor the dashboard for any warning signals and drive cautiously. If the vehicle reports an insulation fault, stop immediately for inspection. 2. Reference: Electric vehicles are not suitable for passing through water deeper than half the tire height. In the absence of preceding vehicles or pedestrians as references, use the roadbed or other fixed objects to estimate water depth. If necessary, exit the vehicle and use an umbrella or branch to check the water depth. 3. Immediate Shutdown: Regardless of the electric vehicle's performance, owners should avoid driving through flooded areas whenever possible. Park the vehicle in an open, elevated area. If the vehicle stalls, do not restart it immediately. Instead, park in a safe area and let it dry for one to two hours to restore performance.

Both Subject 2 and Subject 3 have five attempts. Below are the specific details of the test subjects: 1. Subject content: The test subjects include three items: traffic regulations and related knowledge, field driving, and road driving (including safe and civilized driving). The order of the test subjects is as follows: traffic regulations and related knowledge (referred to as Subject 1 [theory]), field driving (referred to as Subject 2 [nine items]), and road driving (referred to as Subject 3 [road test and safe and civilized driving]). 2. Number of attempts: During the test process, if a previous subject is failed, the following subjects will not be conducted. Each subject test has two attempts. If both attempts are failed, the current test is terminated. During the validity period of the learning driver's license, you can pay the retake fee and retake the test after learning. As for the retake fee, due to varying local conditions, the fees for retakes differ. 3. Test time: After completing the Subject 1 test, you must pass Subject 2 and Subject 3 within three years. If you cannot pass, the test content will be invalidated, and you must re-register for the Subject 1 test. Under the new regulations, both Subject 2 and Subject 3 have five attempts. If you cannot pass the test within the five attempts, you must retake the Subject 1 test.

It is highly necessary to use the simulator for the driver's license test. Here is the relevant information: 1. Introduction to the simulator: The simulator is a common teaching tool in driving schools. 2. Function of the simulator: After passing the Subject 1 test, students usually start with the simulator to practice basic vehicle operations, such as steering wheel control, clutch, brake, and accelerator usage, gear shifting, etc. Once proficient, they can proceed to actual vehicle training. After all, there is still a significant difference from real driving. 3. Simulator training duration: As mentioned above, it generally takes about 5-8 sessions, which translates to 8-12 hours. Nowadays, many driving schools use a combination of simulator and actual vehicle training for Subject 2. Typically, driving schools require students to first learn the Subject 2 test content on the simulator, complete the learning, and then take the simulator test. After passing the Subject 2 test three times, the simulator training can be concluded, and actual vehicle training can begin.

First gear shifting speed is for starting, second gear shifting speed is 15, third gear shifting speed is 25, fourth gear shifting speed is 35, and fifth gear shifting speed is 45. Additional knowledge is as follows: 1. Gear shifting: It is the abbreviation for "gear lever operation method". In the long-term driving process, it has been widely spread due to its concise and direct name. It is used very frequently. Moreover, the level of operational proficiency (especially for manual transmission cars) directly affects driving safety. 2. Definition: The so-called "gear lever operation method" is limited to the "gear lever" itself; while gear shifting not only includes the "gear lever operation method", but more importantly, under the premise of achieving the goal (gear shifting), it includes all psychological and physiological behavioral processes such as speed estimation. 3. Upshifting essentials: Before upshifting, based on road and traffic conditions, smoothly press the accelerator pedal to gradually increase the vehicle speed, a process known as "acceleration". When the speed is suitable for shifting to a higher gear, immediately release the accelerator pedal, press the clutch pedal, and move the gear lever to the neutral position; then quickly release the clutch pedal and immediately press it again, while shifting the gear lever to the higher gear. Then, while gradually releasing the clutch pedal, slowly press the accelerator pedal to allow the car to continue driving smoothly. Depending on the situation, use the same method to shift to an even higher gear.

Chrome plated rod is a type of bar material that undergoes electroplating on the surface of silver steel rods, forming a layer of chromium with a hardness of 50-60. Expanded knowledge about chrome plated rods is as follows: 1. Characteristics: The chrome plating layer on its surface features excellent wear resistance, corrosion resistance, heat resistance, and strong light reflectivity. Particularly, after undergoing relevant technical processing, it can delay the generation or expansion of fatigue cracks, improving the fatigue strength of hydraulic or pneumatic cylinder rods. Therefore, it is mainly suitable for use in automation industries and linear bearing applications. 2. Function: The most commonly used material for chrome plated rods is 45# steel, as chrome plated rods made from this material not only possess excellent mechanical properties but also acquire certain toughness, plasticity, and wear resistance after appropriate heat treatment. Hence, the biggest difference between silver steel rods and chrome plated rods lies in their mechanical properties. Silver steel rods lack mechanical properties, whereas chrome plated rods, after surface hard chrome plating treatment, can achieve excellent mechanical properties.