How to Accurately Enter Curve Driving?

1.4t and 2.0t have a fuel consumption difference of about 2 liters. Here is the relevant information: Difference: The main difference lies in the displacement output gap. The 1.4t has a smaller displacement than the 2.0t, resulting in lower fuel consumption. However, the torque of the 1.4t is less than that of the 2.0t, so the 2.0t has an advantage in terms of power. The main function of a turbocharger is to increase the engine's air intake through the turbocharger, thereby improving the engine's output power and torque. Turbocharged engine: A turbocharged engine refers to an engine equipped with a turbocharger. A turbocharger is essentially an air compressor that increases air intake by compressing air. It uses the inertial impulse of the exhaust gas discharged from the engine to drive the turbine in the turbine chamber, which in turn drives the coaxial impeller. The impeller then compresses the air delivered from the air filter pipe, pressurizing it into the cylinder.

A 1.5L engine is most fuel-efficient at around 2200-2500 RPM. Below is relevant information: Fuel Consumption: Fuel consumption refers to the amount of fuel consumed per distance traveled by a vehicle. Constant-speed fuel consumption is an indicator of a car's fuel efficiency when driving at a steady speed on good road conditions. The commonly mentioned 'liters per 100 kilometers' refers to how many liters of fuel a vehicle consumes to travel 100 kilometers. Influencing Factors: A car's fuel consumption is affected by many factors, including driving conditions and habits. Examples include prolonged engine idling, sudden braking, inconsistent driving speeds, insufficient tire pressure, aggressive acceleration, and long-distance driving at high speeds in low gears. Additionally, road conditions significantly impact fuel consumption, especially in urban traffic where congestion is common.

A car with a 1.2t engine can certainly handle long-distance travel. There is no inherent connection between long-distance driving and engine displacement. Any car with normal performance can drive on highways, as highways have both fast and slow lanes, allowing drivers to choose according to their needs. Precautions for long-distance driving: Rest adequately: Long-distance driving involves extended periods behind the wheel, so it's crucial to avoid fatigue driving. Plan your rest periods before embarking on a long trip. Check travel documents: Since long-distance trips usually involve highways, ensure you have all necessary documents and cash before setting off. Inspect vehicle performance: Conduct a thorough check of your car before departure to prevent breakdowns during the journey. Also, verify the functionality of cruise control and other configurations that might be needed on the highway. Avoid night driving if possible: Driving at night carries higher risks, so it's best to minimize it to prevent accidents. Plan your route in advance: If you miss an exit on the highway, you must proceed to the next one—never reverse. Planning your route beforehand can help avoid missing exits. Maintain a steady speed: Driving at a consistent speed on the highway not only saves fuel but also enhances safety. Frequent speed fluctuations can lead to accidents.

1.5L and 1.6L differ in terms of power output, and generally, the 1.6L is more fuel-efficient. Here is the relevant information: Difference: 1.5 and 1.6 refer to the engine displacement, which is the difference in the size of the engine's displacement. Displacement is the total volume swept by all the cylinders of an engine, calculated as the volume swept by the piston from top dead center to bottom dead center multiplied by the number of cylinders. Displacement is an important structural parameter that comprehensively measures the size of an engine, and the performance indicators of an engine are closely related to its displacement. 1.6L: A 1.6L car has a larger displacement, which means higher fuel consumption per 100 kilometers, but cars with larger displacements accelerate faster. On the other hand, a 1.5L displacement car may not accelerate as quickly as a 1.6L, but it is more fuel-efficient. In summary, the difference in displacement is only 0.1 liters, and unless you are a professional technician or using specialized equipment, you won't feel the difference.

Generally, the maximum power of a 1.5T engine ranges between 100 to 130 kilowatts, while that of a 1.6L engine is below 100 kilowatts. The 1.5T engine has higher power output, which naturally results in higher fuel consumption. The differences between the two displacement types are as follows: 1.6L: The 1.6L is a naturally aspirated engine. Naturally aspirated engines are a type of automotive intake system that draws air into the combustion chamber without the use of any supercharger, relying solely on atmospheric pressure. Modern engines can be categorized into naturally aspirated and forced induction types, with the latter further divided into mechanical supercharging, turbocharging, and the latest pressure wave supercharging. 1.5T: The 1.5T is a turbocharged engine. A turbocharged engine refers to an engine equipped with a turbocharger. A turbocharger is essentially an air compressor that increases the intake air volume by compressing air. It utilizes the inertial force of exhaust gases expelled by the engine to drive a turbine in the turbine chamber, which in turn drives a coaxial impeller. The impeller then pressurizes the air delivered through the air filter pipeline, forcing it into the cylinders under increased pressure.

There are a total of 6 instances where turn signals are required in Subject 2: When starting the vehicle, turn on the left turn signal; When starting on the slope, turn on the left turn signal; During parallel parking, turn on the right turn signal when the vehicle passes the parking space and stops 30 cm from the side line, preparing to reverse; Before shifting into reverse gear during parallel parking, turn on the left turn signal because the steering wheel will be turned fully to the right, causing the front of the car to shift left; Before exiting the parking space during parallel parking, shift into drive gear and turn on the left turn signal, turning it off promptly after exiting; When entering the right-angle turn area, turn on the left turn signal and turn it off promptly after completing the turn. Penalties for incorrect use of turn signals are as follows: Failure to use or incorrect use of turn signals before starting, turning, changing lanes, overtaking, or parking results in a deduction of 10 points. Turning the steering wheel less than 3 seconds after activating the turn signal before starting, turning, changing lanes, overtaking, or parking results in a deduction of 10 points. The full score for Subject 2 is 100 points, with criteria for failure, deductions of 20 points, 10 points, and 5 points. The test is passed under the following conditions: ① For applicants of large buses, tractors, city buses, medium buses, and large trucks, a score of 90 or above is required; ② For other vehicle types, a score of 80 or above is required. For small vehicles C1 and C2, the test includes five mandatory items: reversing into a parking space, parallel parking, slope parking and starting (canceled for C2), right-angle turns, and curve driving (commonly known as S-turns). Some regions also include a sixth item: highway card collection. For large vehicles A1, A2, A3, B1, and B2, the test includes: pole test, slope parking and starting, parallel parking, single-plank bridge crossing, curve driving, right-angle turns, passing through a width-restricted gate, passing through continuous obstacles, driving on bumpy roads, narrow road U-turns, as well as simulated highway driving, continuous sharp mountain turns, tunnels, rain (fog) conditions, slippery roads, and emergency handling.