Where is the trunk switch for Honda CR-V?

To find the 30 cm distance for the pull over test in Subject 3, follow these steps: 1. Locate the edge line of the test area. Drive along the right edge line from the middle-right position of the engine hood. At this point, the right side of the tire should be approximately 30 cm from the right edge line. 2. Align the right 15 cm of the hood center with the right edge line to ensure the 30 cm distance, provided that the vehicle body is already parallel to the roadside. Additional Notes: Important considerations for the Subject 3 test: 1. If fingerprint verification fails, exit the vehicle to re-register your fingerprint before rejoining the test queue. 2. If your score falls below the passing threshold during the test, the system will prompt you to pull over. After completing the pull over maneuver, the system will instruct you to proceed with the next test. 3. When walking around the vehicle to inspect its appearance and surroundings, maintain a distance of within 1 meter from the vehicle body to ensure accurate radar signal detection.

On the road, the order from left to right is lane one, lane two, and lane three. In the same direction, there are three lanes: the far left lane is the overtaking lane for small vehicles, the middle lane is the driving lane for small vehicles and the overtaking lane for large vehicles, and the right lane is the driving lane. Below is relevant information about lanes: 1. Introduction: A lane, also known as a traffic lane or carriageway, is a path used for vehicles to travel. They are set up on both general roads and highways, with highways having legal rules for lane usage, such as driving lanes and overtaking lanes. 2. Lane markings: In many countries, lane markings appear on the road surface. Commonly seen are directional arrows. In China, starting with the Beijing Airport Expressway, all newly built highways have ground lane markings, especially those related to speed limits. The maximum speed limit is indicated in orange, while the minimum speed limit is marked in white. The newly opened sections of the Southwest Sixth Ring Road, which opened in 2004, also have ground speed limit markings. The Beijing section of the Jing-Shi Expressway has also begun implementing lane-specific speed limits.

The vibration of a three-cylinder car is quite noticeable. The main advantages of a three-cylinder car engine are: 1. Low fuel consumption. The three-cylinder engine performs excellently in fuel consumption control. 2. The engine is compact, has high power density, and excellent thermal efficiency. 3. Strong power. Under the same displacement, the single-cylinder volume of a three-cylinder engine is larger than that of other engines, providing better power at low speeds. 4. Low turbo lag. Compared to a four-cylinder engine, a three-cylinder engine has less turbo lag. Additional Information: 1. A three-cylinder engine consists of three cylinders. Inside, three identical single cylinders are arranged on a single block sharing a crankshaft to output power, primarily converting chemical energy into mechanical energy. 2. The basic principle of a three-cylinder engine involves converting the chemical energy of gasoline into thermal energy. The combustion of the compressed air-fuel mixture in the sealed cylinder expands, pushing the piston to perform work, thereby converting thermal energy back into mechanical energy.

White smoke from a car's exhaust pipe may be caused by a dirty air filter, temperature issues, or incorrect oil levels. Below is relevant information about car exhaust: 1. It could be due to a dirty air filter in the vehicle: leading to insufficient air intake, or possibly a problem with the carburetor, or contamination of the oxygen sensor in the exhaust pipe, causing the computer to provide incorrect air-fuel mixture information. 2. Temperature: Normal white smoke is due to the exhaust gases being expelled from the pipe; when these gases reach a certain temperature, they condense into water droplets. If the engine emits a large amount of water vapor or white smoke while running, check the fuel tank for water accumulation, inspect whether the cylinder head gasket is damaged, if the engine block has cracks, or if the cylinder sleeve seal is intact. 3. Oil level: High temperatures in the cylinder can cause gases to enter the oil pan, leading to oil degradation. This is a very common issue, so it's crucial not to overfill or underfill the oil. Normally, exhaust gases are just water vapor, but the high idle speed of a cold engine can also cause the water vapor to appear as white smoke. In fact, white smoke is relatively easy to address, as long as there is no black or blue smoke.

Possible causes include a malfunction in the gear shift lever assembly, a failure in the P-gear lock solenoid valve inside the shift lever, or a damaged brake light switch, all of which can prevent the gear from moving. Relevant details are as follows: 1. During the use of the car's gear shift lever, shifting gears requires looking down at the lever. Avoid prolonged driving in low gear, as high gear is more fuel-efficient than low gear, so it is advisable to shift up promptly after starting. If the clutch pedal is not fully depressed during gear shifting, it can cause gear damage. Additionally, when using the clutch, avoid resting your foot on it, as this can lead to excessive wear on the release bearing. 2. If you encounter difficulty shifting into a gear, avoid forcing it. When the gear lever is in neutral, avoid shaking it back and forth, as this can cause unnecessary wear on components and affect the timing of gear shifts. Do not skip gears when upshifting; instead, shift sequentially to prevent a loss of power continuity in the car. Downshifting, however, can skip gears. Avoid engaging reverse gear before the vehicle comes to a complete stop, as this can cause gear damage.

The lane with short white diagonal lines on both sides is called a sawtooth lane. Here are the specific details about sawtooth lane markings: 1. Appearance: Sawtooth lane markings are a type of deceleration marking. Deceleration markings can be divided into horizontal deceleration markings and vertical deceleration markings. They are white dashed lines set up in toll plaza areas, exit ramps, or other sections where vehicle speed reduction is required. They come in forms such as single dashed lines, double dashed lines, and triple dashed lines, arranged perpendicular to the direction of travel. The vertical deceleration markings for the lane consist of a series of diamond-shaped dashed lines parallel to the lane dividing line. 2. Function: Sawtooth lane markings are typically installed at bridge approaches, exits, and turns. Their main purpose is to create a visual narrowing of the lane, inducing a sense of pressure on drivers, prompting them to automatically reduce speed at locations requiring deceleration, such as curves and slopes. Whether lane changes are permitted under deceleration markings depends on the state of the adjacent markings. If the adjacent line is solid, lane changes are not allowed; if it is dashed, lane changes are permitted.