What is the battery capacity of the Arrizo 5e?

Approach angle refers to the angle between the ground and the tangent line drawn from the foremost protruding point of the car to the front wheel when the car is fully loaded and stationary. Departure angle refers to the angle between the road surface and the tangent line drawn from the rearmost protruding point of the car to the rear wheel when the car is fully loaded and stationary. Here are the relevant introductions: 1. Approach angle: The approach angle is the maximum angle between the horizontal plane and the plane tangent to the outer edge of the front wheel tire (under static load). Any rigid component fixed to the vehicle in front of the front axle must not be below this plane. The larger the approach angle, the less likely the car is to have a contact accident when boarding or disembarking a ferry or during off-road driving, and the better the car's passing performance. 2. Departure angle: The departure angle refers to the angle between the road surface and the tangent line drawn from the rearmost protruding point of the car to the rear wheel when the car is fully loaded and stationary, that is, the maximum angle between the horizontal plane and the plane tangent to the outer edge of the rearmost wheel tire (under static load). Any rigid component fixed to the vehicle behind the rearmost wheel must not be below this plane. It characterizes the car's ability to avoid collision when leaving obstacles (such as hills, ditches, etc.). The larger the departure angle, the better the car's passing performance.

Problems that may occur after a vehicle wades through water include: 1. Residual water can prevent the brake discs and brake pads from fully contacting, causing loss of braking power; 2. Rainwater on roads tends to be dirty with debris like fallen leaves, which can easily adhere to chassis gaps and cause rust; 3. If headlight covers aren't well sealed, water can enter during wading, creating condensation inside that affects light projection; 4. The engine compartment contains numerous wiring harnesses and circuits that may get wet during wading. If interfaces are found wet, immediate drying is necessary to prevent short circuits.

Vehicles require a major maintenance service every 40,000 kilometers. Routine maintenance items include: replacement of engine oil and oil filter. The primary function of the lubrication system is to effectively lubricate various components of the car engine to prevent excessive wear; the oil filter's role is to remove various impurities from the oil, ensuring the normal operation of the lubrication system. The oil filter should be replaced along with the oil during an oil change. The air filter's function is to filter the air before it enters the cylinders, removing impurities, dust, sand, and other foreign particles. The cleaning and maintenance of the air filter depend on the operating environment. The gasoline filter is typically replaced after driving 20,000 to 25,000 kilometers. Spark plugs are consumable parts and should be replaced every 20,000 kilometers.

The differences between the Mercedes-Benz C-Class and CLA are: 1. Different vehicle types: The Mercedes-Benz C-Class is a mid-size car; the CLA is a compact car. 2. Different engine displacements: The Mercedes-Benz C-Class has 1.5T and 2.0T options; the CLA has 1.3T and 2.0T. 3. Different transmissions: The Mercedes-Benz C-Class uses an automatic transmission; the CLA uses a dual-clutch transmission. 4. Different drive systems: The Mercedes-Benz C-Class is rear-wheel drive; the CLA is front-wheel drive. The front design of the Mercedes-Benz C200 is identical to the imported version, with sharp lines for the split high and low beams, giving it a youthful and dynamic overall look. In terms of dimensions, the Mercedes-Benz C200 measures 4526mm in length, 1728mm in width, and 1427mm in height, with a wheelbase of 2715mm, making it a four-door, five-seat sedan.

Methods for handling coolant leakage from the radiator: It is recommended to use a specialized radiator pressure tester for inspection. Pressure must be applied to the engine cooling system to detect leaks. If significant leakage is found, the damaged components need to be replaced. After replacement, use the radiator pressure tester again to pressurize the radiator and check for any additional leaks. Coolant is a liquid with antifreeze properties, serving the functions of antifreeze and cooling—preventing freezing in winter, overheating in summer, and protecting against scale, rust, and corrosion year-round. Ordinary coolant can have a freezing point as low as -40°C or even -60°C, safeguarding the engine's cooling system under extremely cold conditions.

The causes of transmission overheating include: 1. High engine and coolant temperatures affecting transmission cooling; 2. Clogged radiator grille; 3. Transmission clutch slippage generating additional heat; 4. Insufficient flow in the transmission cooling oil circuit; 5. Thermostat sticking. Note: 90% of transmission failures are caused by high temperatures. Transmission overheating often shows no obvious symptoms during use, but prolonged high temperatures can lead to aging of internal seals, brittleness of plastic components, reduced lubricating performance of the fluid, and shortened lifespan of electrical components. It is essential to regularly measure transmission fluid temperature and address any issues promptly.