Why Do Pure Electric Vehicles Have Exhaust Pipes?

Distinguishing between intake and exhaust camshafts is done as follows: Open the camshaft cover, the valve with larger clearance is the exhaust valve, and the one with smaller clearance is the intake valve. The camshaft is a component in a piston engine. Its function is to control the opening and closing of the valves. Below are the methods for testing the camshaft position sensor: 1. Unplug the connector, turn the key to the second position, and use a voltmeter to measure and confirm that the power line has voltage output. 2. Use the meter to identify the ground wire. With the voltage setting, connect one probe to the confirmed power line and the other probe to the remaining two wires. The wire that shows voltage is the ground wire, and the remaining one is the signal wire. 3. Now turn off the key, extend the signal wire, plug back the connector, start the engine, and measure between the signal wire and the ground wire to check if there is signal voltage output. The output voltage should be less than the supply voltage. 4. While performing the above steps, inspect the signal teeth on the camshaft and check for any debris between the camshaft sensor and the signal teeth, ensuring the gap is normal.

The hazards of car idling include: 1. Shortened lifespan: Reduces the service life of the engine. 2. Damaged catalytic converter: Easily damages the three-way catalytic converter. 3. Increased carbon deposits: Leads to more carbon buildup in the engine. 4. System damage: Harms the vehicle's electronic systems. 5. Fuel injector failure: Causes fuel injector malfunctions. Below is an introduction to related content: 1. Types of car idling: Normal idling, driving idling, and unstable idling. 2. Function of car idling: Car idling refers to the engine running without load, only overcoming the internal friction resistance of components, without outputting power externally, maintaining the minimum stable operating speed of the engine. The idling speed can be adjusted by changing the throttle opening size and the idling fuel supply.

Generally, the displacement of ordinary family cars ranges between 1.5L-2.0T, with a fuel consumption of 7L/100km-10L/100km. Below is some information about fuel consumption: 1. Introduction: It generally refers to the amount of gasoline consumed by a car over 100 kilometers, serving as a theoretical indicator for vehicles. 2. Methods to reduce fuel consumption: The longer the idling time while parked, the greater the fuel consumption, so try to minimize idling time; avoid rapid acceleration, slamming the gas pedal, and driving at lower RPMs. 3. Factors affecting fuel consumption: Various driving conditions such as acceleration, deceleration, braking, and engine idling, as well as load capacity, temperature, and whether the air conditioning is on, all have an impact.

On-the-road price of a car = Ex-factory price + Vehicle purchase tax + Insurance premium [Commercial insurance + Compulsory traffic insurance] + Vehicle and vessel usage tax + Inspection and license plate fees. The specific details are as follows: 1. Vehicle purchase tax = Ex-factory price ÷ (1 + 17%) × 10%; 2. Insurance premium = Commercial insurance + Compulsory traffic insurance (The price of compulsory traffic insurance for family-use cars with fewer than 6 seats is 950 yuan, and for 6 seats or more, it is 1100 yuan); 3. Vehicle and vessel usage tax = (For models with 1.0L-1.6L displacement, the annual tax is 300 yuan; for 1.6L-2.0L displacement, the annual tax is 360 yuan; for 2.0L-2.5L displacement, the annual tax is 720 yuan); 4. Inspection and license plate fees are approximately 300-400 yuan, but if handled by a 4S shop, it may cost 600-1000 yuan.

The following are the reasons why the low beam light turns off when the high beam is on: 1. Filament burnout: If the high beam works but one of the low beams doesn’t, it might be due to a broken filament in the low beam bulb. This is relatively easy to fix—just replace the bulb. 2. Switch connectivity: If both low beams are off and the filaments are intact, the owner should check whether the low beam switch is properly connected or if the low beam fuse is functioning normally. Below are some extended details about headlights: 1. Halogen headlights: Halogen headlights are the most commonly used type of headlight source by major automakers across various vehicle models. Due to their affordability, they are very suitable for lower-priced economy vehicles. 2. Xenon headlights: Xenon lights use high-voltage current to stimulate illumination, offering a longer lifespan and better energy efficiency compared to halogen lights. Additionally, their brightness is significantly improved by up to 300% over halogen lights. 3. LED headlights: LED headlights are increasingly entering the public’s view. While LEDs are often associated with stylish daytime running lights, this type of light source, with its numerous advantages, has become a popular choice for automotive headlight illumination.

Tire friction with the ground, lack of lubrication in the steering column, malfunction of the airbag clock spring, and damage to the shock absorber's thrust bearing can all lead to this issue. Below is more detailed information: Reasons for rubber friction sounds when turning the steering wheel: 1. Tire friction with the ground. When turning the steering wheel while stationary, the tires may rub against the ground, producing noise. This is a very normal phenomenon and can be more noticeable on surfaces coated with floor paint. 2. Lack of lubrication in the steering column. The steering column is a crucial component for transmitting steering movements. Over time, it may lack lubrication, leading to friction sounds. 3. Malfunction of the airbag clock spring. The airbag clock spring is installed inside the steering wheel. If the noise originates from inside the steering wheel, it may indicate an issue with the airbag clock spring. 4. Damage to the shock absorber's thrust bearing. If the rubber friction sound comes from the engine compartment, it's advisable to check the shock absorber's thrust bearing.