How to adjust the F3 radio?

High beam headlights can be used on highways. The specific reasons are as follows: 1. According to Article 58 of the "Regulations for the Implementation of the Road Traffic Safety Law of the People's Republic of China," high beam headlights can be used on roads without street lighting or with poor illumination. When the vehicle speed exceeds 30 kilometers per hour, high beams should be prioritized. On highways, where the minimum speed is 60 kilometers per hour, using high beams is both reasonable and legal. 2. High beam headlights can effectively distinguish objects. When driving at night, high beams illuminate a longer distance, providing the driver with a clearer field of vision. Night driving limits the driver's visibility, making it difficult to judge road conditions and surroundings outside the vehicle. Therefore, using high beams on highways at night helps in better identifying objects. 3. It helps avoid missing exits. At night, a driver's visibility is worse than during the day. If low beams are used, the field of vision becomes shorter, often leading to missed highway exits. Using high beams provides a broader view, reducing the likelihood of taking the wrong exit. 4. High beams help spot obstacles on the road. Drivers familiar with highways know that speeds are generally high. If cargo falls off a truck ahead or there are road obstacles at night, high beams allow the driver to observe the road ahead more clearly, providing enough time to avoid hazards. Using low beams in such situations increases the risk of accidents. 5. When driving at high speeds, high beams illuminate a longer distance compared to low beams. The recognition distance and confirmation distance—the distance at which you can see and clearly identify objects ahead—are greater with high beams than with low beams.

Windshield washer fluid in cars generally does not need to be replaced; simply refill it when it runs out. Below is relevant knowledge about the use of windshield washer fluid: 1. When owners notice the washer fluid level is low or the fluid has run out, they can add it themselves. Refilling windshield washer fluid is very simple: just open the engine hood, locate the cap of the washer fluid reservoir, open the cap, and add the fluid. 2. In winter, it is essential to use washer fluid with a lower freezing point; otherwise, the fluid may freeze due to low temperatures. When liquid freezes, its volume expands, which could potentially damage the washer fluid reservoir. Always refill the washer fluid promptly when it runs out, as it is crucial for keeping the windshield clean. After adding the fluid, make sure to securely close the cap to prevent dirt from entering the reservoir. 3. If the washer fluid is low, avoid using water as a substitute, as water contains impurities that can easily clog the washer nozzles. Typically, filling a car's washer fluid reservoir requires about four liters of fluid. When purchasing washer fluid, buy according to the reservoir's specified capacity. Avoid buying low-quality washer fluid, as using it may accelerate the aging of the windshield wipers.

Causes of tire blowouts include low tire pressure, overinflation, incorrect installation, lack of proper maintenance, tire wear and aging, sidewall bulges, manufacturing defects, and severe impacts. Below are additional details: Measures to prevent tire blowouts: Replace tires in a timely manner, perform wheel alignment and tire balancing, rotate front and rear tires, maintain proper tire pressure, and avoid speeding. How to handle a tire blowout: Hold the steering wheel firmly, adjust the direction gently; avoid sudden or repeated steering movements, do not slam on the brakes, and wait for the vehicle to slow down gradually before making gentle steering adjustments; place a warning triangle behind the vehicle to prevent secondary accidents.

Alcohol should not be left in the car during summer, and the specific reasons are as follows: 1. Alcohol is a flammable and explosive substance. Under direct sunlight, the temperature inside a sealed car can reach 50-60 degrees Celsius. In an unventilated environment, if exposed to an open flame or flammable materials (such as a lit cigarette), it can cause an explosion. 2. If stored in glass containers, sunlight can create a magnifying glass effect, focusing light and igniting the alcohol, which can easily lead to an explosion. Perfumes containing alcohol should also not be used in cars. 3. Many car owners place car perfumes to freshen the air inside the vehicle. However, most perfumes contain alcohol, and inferior perfumes are highly prone to exploding under high temperatures, posing extreme danger.

There are two principles behind tire pressure monitoring in cars. Below are the detailed introductions and comparisons of these two principles: 1. Direct Tire Pressure Monitoring. Direct tire pressure monitoring devices use pressure sensors installed in each tire to directly measure the tire's air pressure. The pressure information is then transmitted wirelessly from inside the tire to a central receiver module, which displays the pressure data for each tire. The system automatically alerts the driver when the tire pressure is too low or if there is a leak. 2. Indirect Tire Pressure Monitoring. The working principle of indirect tire pressure monitoring is: when the pressure in a tire decreases, the vehicle's weight causes the rolling radius of that wheel to become smaller, resulting in a faster rotation speed compared to the other wheels. By comparing the differences in rotation speeds among the tires, the system monitors the tire pressure. Indirect tire pressure alert systems essentially rely on calculating the rolling radius of the tires to monitor pressure. 3. Characteristics of Both Types of Tire Pressure Monitoring. Both types of tire pressure monitoring devices have their pros and cons. Direct tire pressure monitoring devices offer more advanced features, allowing real-time measurement of the actual instantaneous pressure inside each tire and easy identification of the faulty tire. Indirect systems are relatively cheaper to manufacture, and cars already equipped with 4-wheel ABS (each tire equipped with one wheel speed sensor) only require a software upgrade. However, indirect tire pressure monitoring devices are not as accurate as direct systems and cannot pinpoint the faulty tire. Additionally, system calibration is extremely complex, and in some cases, the system may fail to function properly, such as when both tires on the same axle have low pressure.

Engine oil 10w-40 is a type of engine oil, and here is its detailed explanation: 1. The 'W' stands for WINTER. The number 10 before the 'W' represents the freezing point temperature. The freezing point temperature for 10W engine oil is -25°C. The number after the 'W' represents the kinematic viscosity of the oil at 100°C. The higher the number, the higher the viscosity. 2. The grade after the oil classification indicates its viscosity specification. The smaller the number before the 'W', the better the low-temperature fluidity of the oil, indicating a lower usable environmental temperature and better protection for the engine during cold starts. 3. The smaller the number before the 'W', the lower the low-temperature viscosity, the better the low-temperature fluidity, and the lower the minimum applicable temperature. For numbers like 20, 30, 40, and 50, the larger the number, the higher the viscosity, and the higher the maximum applicable temperature. 5W is suitable for -30°C environmental temperature; 10W is suitable for -25°C environmental temperature; 15W is suitable for -20°C environmental temperature; 20W is suitable for -15°C environmental temperature; 30 is suitable for 30°C environmental temperature; 40 is suitable for 40°C environmental temperature; 50 is suitable for 50°C environmental temperature.