BYD Qin Pro II EV 69.5 kWh (184 Hp) Sedan 2019 2020 2021 | Technical Specs, Fuel consumption, Dimensions, 184 Hp, 150 km/h, 93.21 mph, 0-100 km/h: 8.4 sec, 0-60 mph: 8 sec, Electricity, 1710 kg GO Advanced Contact online >>
BYD Qin Pro II EV 69.5 kWh (184 Hp) Sedan 2019 2020 2021 | Technical Specs, Fuel consumption, Dimensions, 184 Hp, 150 km/h, 93.21 mph, 0-100 km/h: 8.4 sec, 0-60 mph: 8 sec, Electricity, 1710 kg GO Advanced
Battery capacity. The capacity of the rechargeable battery that powers this EV as specified by the manufacturer in kilowatt hours. 65 kWh (kilowatt hours) Number of cells. The batteries used by electric cars are usually packs that consist of a certain number of battery cells in different arrangements.
Complete 2019 Bolt EV specs, including battery, electric motor, charge times, horsepower, torque, suspension, brakes, platform, dimensions, capacities & more.
Width: 69.5 in / 1765 mm. Height: 62.8 in / 1594 mm. Curb weight: 3582.51 lb / 1625 kg. Electric motor: 150 kW, 360 Nm, Location: Front. Top speed: 90.1 mph / 145.0 km/h. Acceleration 0-60 mph: 6.90 s. Drivetrain: Front-wheel drive (FWD) Battery: 60 kWh, Voltage: 350 V. Add to compare Suggest an edit.
Detailed specs and features for the 2023 Chevrolet Bolt EV including dimensions, horsepower, engine, capacity, fuel economy, transmission, engine type, cylinders, drivetrain and more.
The name of the manufacturer.
The year for which the model is announced by the manufacturer. Most often it does not completely coincide with the calendar year in which the model is available on the market.
Markets in which this electric vehicle is available.
Current MSRP of the model (before incentives) depending on the market.
The body style of the model as defined by the number of doors and roof treatment.
Materials used in the vehicle's body construction.
Available exterior colors for the model as specified by the manufacturer.
Available interior colors for the model as specified by the manufacturer.
Number of doors for passengers. Depending on the body style, the doors can be two, four, etc.
The distance from the frontmost to the rearmost point of the electric vehicle.
The width of the vehicle without mirrors.
The distance between the centers (centerline) of the two wheels on the front axle.
The distance between the centers (centerline) of the two wheels on the rear axle.
The vertical distance from the vehicle's roof to the front seats bottom.
The vertical distance from the vehicle's roof to the rear seats bottom.
The width of the seat cushion on the back, which indicates how much space is available for the passengers on either side of their waists.
The distance available for the legs of the driver and the front passenger.
The distance available for the legs of the rear passengers.
This is the sum of the front and rear passenger volumes. The front passenger volume is calculated by multiplying the front headroom, legroom and shoulder room. The rear passenger volume can be calculated in the same way. If the difference between the shoulder and the hip room is more than 5 inches (125 mm), their average is used for the multiplication.
The total volume of the vehicle is the sum of the front and rear volume or the sum of the all available passenger and cargo volume.
Curb weight (a.k.a. kerb weight) is the EV mass with standard equipment, liquids (oils and fuel at nominal tank capacity) but without cargo and passengers. In some EU countries, the curb weight also includes the weight of a 75 kg (165 lb) driver.
The drag coefficient or coefficient of drag is related to the car's aerodynamics as it denotes the resistance to the air of the front surface of the vehicle when it is in movement. The lower the coefficient, the better aerodynamics the model has. Ultimately, this allows for higher speeds and improved power efficiency.
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