How soon can I schedule the Subject 4 test after passing Subject 3 in Harbin?

Possible situations when there is noise during braking include: 1. When starting a cold car, there is a screeching sound when braking. This often occurs in the morning, especially in winter mornings, when there is moisture on the brake discs. The sound is particularly noticeable when starting to drive, but it disappears after driving for a while as the moisture evaporates. In this case, there is no need to worry about any brake issues. 2. A "clanging" sound when braking. This may be caused by small stones getting into the hollow part of the brake disc, resulting in a regular knocking sound when the vehicle is moving. Simply remove the tire and take out the small stones or foreign objects. 3. A metal-on-metal grinding sound when braking. This is mainly due to the brake pads wearing down to the safety line, a problem that many drivers easily overlook. Initially, the sound is very small, but as it gradually becomes louder, the brake pads will wear out completely, and eventually, the braking effect will rely solely on the metal of the brake pads and the brake disc. At this point, the brake pads and brake disc need to be replaced. 4. A "clicking" sound when braking. In most cases, this is caused by the driver slamming on the brakes at high speed, triggering the vehicle's ABS function to prevent accidents caused by locking the brakes. 5. A "pop" sound when starting the vehicle after releasing the handbrake. This is mainly because the brake disc is made of cast iron, and the brake pads also contain iron components. When the brake disc rusts, it may stick to the brake pads. In this case, simply pressing the accelerator slightly and then releasing it will resolve the issue, and there is no need to worry about any brake problems. 6. A sound when lightly braking with newly replaced brake pads. There are two main reasons for this. One is severe wear on the brake disc, causing the brake pads and brake disc to not fully contact, resulting in uneven wear and noise. The other is that the selected brake pads are not the silent type. In this case, simply choosing ceramic-type brake pads will solve the problem.

How to determine the year of a car by its glass? When inspecting a car, the date on the glass can generally be categorized into the following three types, along with certain special vehicle models: 1. Number + Dot Date Reading Method The number represents the year. If the dots are in front of the number, the date is in the first half of the year, and you subtract the number of dots from 7. If the dots are behind the number, the date is in the second half of the year, and you subtract the number of dots from 13. Example: The car's manufacturing date is October 2014, and the glass date is ····3. Calculation: Dots are in front, 3 represents 2013, and there are 4 dots before the 3. Subtract 3 from 7 to get 4. Production date: April 2013. 2. Number + Small Dots + Large Dots Date Reading Method The number represents the year. Small dots represent the quarter (maximum of 4, as there are 4 quarters in a year). Large dots represent the month within the quarter (maximum of 3). Example: The car's manufacturing date is November 2017, and the glass date is 7······. Calculation: The number 7 represents 2017, 4 small dots represent the fourth quarter, and the 2 large dots represent the second month of the quarter. Production date: November 2017. 3. First Line: Number + Small Dots, Second Line: Large Dots + Small Dots Date Reading Method The number represents the year of glass production. Small dots in the first line represent the month (minimum 1 dot, maximum 12 dots). The second line represents the days in the month, with large dots representing 10 days and small dots representing 1 day. Example: The car's manufacturing date is August 23, 2009, and the glass date is 9··········. Calculation: 9 represents 2009, 8 small dots in the first line represent August, 2 large dots in the second line represent 20 days, and 3 small dots represent 3 days. Production date: August 23, 2009. 4. BMW car glass is a bit special, as it does not have numbers or dates, only batch numbers. Determining the date of BMW glass requires experience.

Wear protective masks, gloves, and work clothes; clean the interior of the car thoroughly, and remove all interior items such as floor mats, seat cushions, trunk mats, pillows, and seat covers. The construction process follows the principle of from top to bottom and from front to back. Different materials are treated differently. Use formaldehyde remover on car interiors and accessories to dissolve chemical pollutants deeply inside and sterilize and deodorize. Perform formaldehyde removal treatment on interior items such as floor mats and seat cushions. Maintain good ventilation, and after complete drying, perform a second spraying on the car and interior items.

Methods to check how much engine oil is left in the car: 1. The oil dipstick is usually located next to the engine, either on top or on the side. A distinctive feature of the dipstick is that it has a pull ring, making it easy to identify. 2. Pull out the dipstick and use a tissue to completely wipe off the oil at the tip of the dipstick. Also, take note of the position of the dipstick's scale (usually marked with MIN and MAX indicators). 3. Reinsert the cleaned dipstick all the way in, then pull it out again. Observe the oil on the tip of the dipstick to determine if the measurement is appropriate. If the oil level is between the MIN and MAX marks, the measurement is optimal. Additional Information: In automobiles, the dipstick is a commonly used tool to check the quantity of lubricating oil in the reservoir. Due to the curved path of the dipstick insertion hole, the dipstick must be able to deform when inserted and return to its original shape when pulled out. The function of the oil dipstick is not only to check the level of engine lubricating oil. Experienced drivers or mechanics can detect many operational dynamics of the engine by inspecting the dipstick. This allows for timely engine maintenance, early detection of faults or causes of issues, and prevention of further deterioration of problems.

The N gear in an automatic transmission is the neutral gear, which functions similarly to the neutral gear in a manual transmission and is used for temporary parking. Another purpose is when the engine suddenly stalls while driving; if you want to restart the engine while in motion, you need to shift into the N gear. It is generally used when waiting at traffic lights by shifting into the N gear. Remember, do not coast in N gear with an automatic transmission vehicle. The only difference between the P gear and the N gear is that the P gear has a locking mechanism. This locking mechanism engages the transmission gears when shifting into P gear, effectively locking the wheels indirectly. After shifting into P gear, even if the parking brake is not applied, the vehicle will not move. However, if shifted into N gear without applying the parking brake, the vehicle can still move. The usage scenarios for P gear and N gear are not necessarily the same. The N gear can be used for short-term parking, such as when waiting at a red light or when parked by the roadside with the engine running while waiting for someone. The P gear is used when parking, turning off the engine, and leaving the vehicle. Many car models have a safety design where the key cannot be removed unless the gear is shifted into P after turning off the engine. This design is intended to prevent the driver from forgetting to shift into P gear, which could lead to the vehicle rolling away. Therefore, P gear is used when turning off the engine and leaving the vehicle, while N gear is for short-term parking.

The differences between naturally aspirated and turbocharged engines are: 1. Acceleration performance Turbocharged engines have stronger acceleration performance than naturally aspirated engines. 2. Comfort Naturally aspirated engines perform better in terms of idle quietness and smoothness, noise during cold starts, and operational stability compared to turbocharged engines. 3. Maintenance cost The maintenance cost of turbocharged engines is higher than that of naturally aspirated engines. Additional information: 1. Advantages of turbocharging Turbocharged engines generally achieve power levels equivalent to 1.3 to 1.5 times their displacement compared to naturally aspirated engines. However, this is a general comparison. In actual performance, turbocharged engines have stronger 'reserve power' after 3000 RPM, and some outstanding turbocharged engines can even provide an exciting 'climax.' In contrast, the reserve power of naturally aspirated engines, if any, is not as thrilling. 2. Advantages of naturally aspirated engines The power delivery of naturally aspirated engines is easier to control. This is mainly reflected in the output of throttle response during subtle adjustments. Naturally aspirated cars accelerate more smoothly, with relatively more consistent acceleration.