How to Remove the Spare Tire of Wuling Rongguang?

Generally, crossing the line with the rearview mirror during the reverse parking test in the driving exam does not result in a penalty, but this depends on the specific markings at each test site. According to the "Motor Vehicle Driver Training and Examination Syllabus," as long as the vehicle body does not exceed the ground markings during reverse parking, no points are deducted. Since rearview mirrors are protruding, whether they are considered part of the vehicle body depends on how each test site recognizes them. Failing the test occurs if the vehicle body crosses the line, fails to enter the parking space, stops midway, does not follow the prescribed route or sequence, or exceeds the allotted time, all of which result in a 100-point deduction. The full score for the test is 100 points, with evaluation criteria set for failing, deducting 20 points, deducting 10 points, or deducting 5 points. The rules for the second subject of the motor vehicle driver's license test state that failing occurs if the vehicle stops or rolls back during the test, does not follow voice instructions, or if the wheels or body cross the line. Many students encounter line-crossing issues during the second subject, and "crossing the line" is the most common reason for failing. The main cause of wheel line-crossing is students not mastering the correct timing for steering. Besides missing the steering timing, another reason could be the steering speed not keeping up with the vehicle speed. Subject 2 Deduction Standards: Not wearing a seatbelt: 100-point deduction. Starting the engine without the gear in neutral: 100-point deduction. Not using turn signals (including when starting, changing lanes, overtaking, turning, or parking); turning signals not used for more than three seconds (note this is easily overlooked!); forgetting to turn off turn signals or using them incorrectly: 10-point deduction. Stalling once: 10-point deduction. Reverse Parking: Not following the prescribed route sequence: 100-point deduction. Vehicle body crossing the line: 100-point deduction. Failing to park properly: 100-point deduction. Before reversing, if both front wheels do not pass the control line: 100-point deduction. Exceeding the 210-second time limit: 100-point deduction. Stopping for more than 2 seconds: 5-point deduction per occurrence. Slope Parking and Starting: After stopping, if the front bumper is not aligned with the pole line and exceeds 50 cm forward or backward: 100-point deduction. After stopping, if the front bumper is not aligned with the pole line but does not exceed 50 cm forward or backward: 10-point deduction. After stopping, if starting takes more than 30 seconds: 100-point deduction. Wheels crossing the road edge line while driving: 100-point deduction. Rolling back more than 30 cm when starting: 100-point deduction. After stopping, if the vehicle body is more than 50 cm from the road edge line: 100-point deduction. Not tightening the parking brake after stopping: 10-point deduction per occurrence. After stopping, if the vehicle body is more than 30 cm but less than 50 cm from the road edge line: 10-point deduction per occurrence. Rolling back more than 10 cm but less than 30 cm when starting: 5-point deduction per occurrence. Parallel Parking: After parking, if the vehicle body crosses the line: 100-point deduction. Not using or incorrectly using turn signals when parking: 10-point deduction. Exceeding the 90-second time limit: 100-point deduction. Touching the parking space edge line while driving: 10-point deduction per occurrence. Wheels touching the lane edge line while driving: 10-point deduction per occurrence. Stopping for more than 2 seconds: 5-point deduction per occurrence. 90-Degree Turn: Wheels crossing the road edge line: 100-point deduction. Not using or incorrectly using turn signals during the turn, or not turning them off after the turn: 10-point deduction. Stopping for more than 2 seconds: 5-point deduction per occurrence. Curve Driving: Wheels crossing the road edge line: 100-point deduction. Stopping for more than 2 seconds: 100-point deduction. Driving without the gear in second or higher: 5-point deduction.

The tire model specification for the Buick Excelle is 185/65R15. The first number, 185, indicates the tire width is 185MM. The number 65 represents the aspect ratio of the tire section, which is 65%, meaning the section height is 65% of the width. The letter R stands for radial tire, and 15 denotes the rim diameter is 15 inches. The Buick Excelle has a top speed of 170km/h and a fuel consumption of 4.7L per 100km. In addition to the model, the tire also displays the following common data: Tire cord material: Indicated by Chinese pinyin, such as M for cotton cord, R for rayon cord, N for nylon cord, G for steel cord, and ZG for steel radial cord tire. Speed rating: Indicates the maximum speed at which the tire can carry a specified load under defined conditions. Letters from A to Z represent the certified speed ratings of the tire, ranging from 4.8km/h to 300km/h. Common speed ratings include: Q: 160km/h; H: 210km/h; V: 240km/h; W: 270km/h; Y: 300km/h. Rim specification: Indicates the rim specification compatible with the tire for practical use, such as "Standard Rim 5.00F".

The air conditioning filter in the Peugeot 408 is located at the front left side of the engine compartment. The air conditioning filter, also known as the cabin filter, is responsible for filtering the air inside the vehicle's cabin. Here are some details about the Peugeot 408: 1. Storage Space: The Peugeot 408 features numerous well-designed storage compartments with a total volume of nearly 33 liters. These include: a glove box with approximately 10 liters of capacity, equipped with lighting and cooling functions, allowing easy access to 1.5-liter water bottles. The glove box lid also includes additional storage spaces with various functions and features an open/close assist mechanism. Below the center console and behind the two cup holders, the front armrest provides 2.12 liters of storage space, sufficient for six CDs and other personal items. A storage compartment at the lower part of the control panel, connected to the center console, is designed for phones and keys and includes a noise-reducing pad. The front and rear door storage spaces offer a combined capacity of nearly 15 liters, perfect for maps, guides, or other items within easy reach. 2. Design: The design of the Peugeot 408 embodies the latest DNA of Peugeot vehicles: the front fascia is characterized by the iconic Lion's Eye headlights, seamlessly integrated with the hood, creating a bright and penetrating look that strongly reflects the Peugeot brand image.

Level 1, 2, and 3 hot work scopes are as follows: Level 1 Hot Work: Hot work operations conducted in Class A and B fire hazard zones. Class A and B fire hazard zones refer to locations where flammable and explosive materials are produced, stored, loaded, transported, or used, or where flammable gases or vapors are volatilized or emitted. Any hot work within the fire separation distance from open flames or spark-emitting locations in Class A and B production workshops, production facility areas, storage tank zones, warehouses, etc., is considered Level 1 hot work. The designated area is within a 30-meter radius. Therefore, any hot work within this 30-meter range requires a Level 1 hot work permit. Level 2 Hot Work: Hot work operations other than special-level and Level 1 hot work. This refers to hot work within the boundaries of Class C fire hazard zones in chemical plant areas, excluding Level 1 and special-level hot work zones. Any hot work within Level 2 hot work zones must obtain a Level 2 hot work permit. Level 3 Hot Work: Hot work operations with special hazards conducted in critical areas such as operational flammable and explosive production facilities and tank zones. The term 'special hazard' is not absolute. If there is an absolute hazard, the principle of production yielding to safety must be strictly followed, and hot work must not be conducted under any circumstances. Special-level hot work generally refers to operations on equipment and pipelines within facilities or workshops. Any hot work in special-level hot work zones requires a Level 3 hot work permit.

New energy vehicles consume approximately 17 kWh per 100 kilometers. Introduction to the power consumption of pure electric vehicles: Assuming an ordinary fuel-powered car and an electric vehicle travel the same distance, the energy required is the same, similar to moving an object where the work done by human power and by a machine is identical. Calculation method: The fuel consumption of a typical household car is around 8 liters per 100 kilometers, and the density of gasoline is approximately 0.72 kilograms per liter, which translates to 5.76 kilograms per 100 kilometers. The energy content of gasoline is 43.1 megajoules per kilogram, so the energy required for a car to travel 100 kilometers is calculated to be 248 megajoules. Most of the energy from gasoline combustion is carried away by exhaust gases, and additional energy is lost during transmission from the engine to the wheels. Therefore, generally, only 15%-25% of the energy contained in gasoline is effectively used for the car's movement, with a median value of 20%. This means approximately 50 megajoules of energy is needed to propel a car for 100 kilometers. Research indicates that the cycle efficiency of an electric vehicle's battery is around 90%, and the efficiency of the motor driving the car is also about 90%. Thus, the electricity consumption per 100 kilometers for an electric vehicle is calculated as 50 megajoules ÷ 90% ÷ 90% = 61.7 megajoules. Since 1 kWh = 3.6 megajoules, the electricity consumption per 100 kilometers can be calculated as 61.7 / 3.6 = 17.1 kWh, meaning an electric car consumes about 17 kWh per 100 kilometers.

Specific steps to activate the cooling function of the Volkswagen Magotan air conditioning: Depress the brake pedal and start the engine. Turn the key to the ST position to ignite the engine until it reaches stable idle speed. Rotate the fan speed knob to the far right for maximum airflow. Turn the temperature mode knob to the left to engage cooling mode. Press the A/C switch to activate the compressor. Press the recirculation button to enable interior air circulation mode. The automotive air conditioning system (air conditioning device), commonly referred to as car AC, regulates and maintains optimal cabin temperature, humidity, air purity, and airflow. It provides passengers with a comfortable environment, reducing travel fatigue, while creating favorable working conditions for drivers and playing a vital role in ensuring safe driving. Typically, it consists of cooling, heating, and ventilation systems. This integrated unit efficiently utilizes limited vehicle space with a simple structure and user-friendly operation, representing the internationally prevalent modern automotive air conditioning standard. The Magotan, a mid-size sedan manufactured by FAW-Volkswagen, measures 4865mm in length, 1832mm in width, and 1471mm in height, with a wheelbase of 2871mm. It offers a trunk capacity of 533 liters, a minimum ground clearance of 114mm, and a curb weight of 1445kg. Powered by either a 1.4L or 2.0L turbocharged engine paired with a 7-speed dual-clutch transmission, it features direct and combined fuel injection systems. Both cylinder head and block are constructed from aluminum alloy. The suspension system comprises MacPherson struts at the front and a multi-link independent setup at the rear.