Since its inception in 2003, Tesla has been at the forefront of the movement to convert people to electric vehicles thanks to its innovative and forward-thinking technology.
As opposed to conventional cars, which derive their power from the combustion of fossil fuels, Teslas are powered only by a battery pack and an electric motor.
How Much Electricity Does a Tesla Electric Car Consume?
The Tesla electric automobile was built to be driven purely by electricity.
The electricity consumption of an EV is discussed in terms of both the amount of power required to charge the EV and the amount of power used during the actual driving.
There are a number of variables that can affect how much electricity a Tesla electric car needs to recharge or travel a set distance.
The electrical needs and consumption of a Tesla electric car can be affected by the following:
- The specific version of Tesla’s electric vehicle.
- The exact production year of a specific Tesla EV model.
- The power supply used by Tesla drivers to recharge their vehicles.
- The health of the Tesla electric car’s battery and its ability to hold a charge
- The manner in which a Tesla owner maneuvers their electric car
- You can find out how much electricity each Tesla model uses and consumes by reading the rest of the article.
In addition, the essay will highlight key pointers that will enable a client to decrease the electricity usage of their Tesla electric vehicle, hence extending the life of the battery.
The time has come to begin!
What exactly is a Tesla Electric Car?
Elon Musk created the Tesla electric car to save the planet from additional damage caused by the use of nonrenewable fossil fuel stocks.
Musk is widely regarded as the industry’s actual first mover in electric car technology, having built fully electric versions of his visionary future automobiles.
Fans of the environment and early adopters of cutting-edge transportation technology alike have switched to Tesla EVs thanks to the sleek styling of the company’s electric vehicles.
Customers save money on fossil fuel costs and have access to convenient, low-cost recharging options at home and in public.
How Does a Tesla Electric Vehicle Consume Electricity?
Tesla has thoughtfully crafted and released a wide range of Tesla EV models, each with its own set of distinctive features and visual characteristics, to meet the varying demands and tastes of its customer base.
Although each Tesla electric vehicle is unique, they all use the same electricity-powered mechanism to convert mechanical energy into motion.
A Tesla EV’s battery pack will begin absorbing power from the charging source as soon as the EV is connected to it.
The electric charge can be stored in the Tesla EV’s battery pack to the extent of its capacity. It converts the electrical energy into chemical energy.
The electric motor of a Tesla EV draws on the electric battery’s stored chemical charge to produce mechanical energy once the vehicle is started.
The thermal energy released during this process is dissipated into the atmosphere or returned to the battery using the Tesla EV’s innovative regenerative braking technology.
Power transmitters within the Tesla EV transfer this motional energy to the tires. The Tesla electric car increases speed and range as a result of this.
What Are the Different Factors That Influence the Electricity Usage of a Tesla Electric Car?
Though all Tesla EVs function in a similar fashion, their electricity needs will vary depending on a number of factors.
Particular Tesla Model
To meet the diverse needs of its customer base, Tesla has introduced a wide range of electric vehicle (EV) models. The lineup includes numerous various types of sedans, SUVs, trucks, and sports vehicles, some of which have all-wheel drive.
Each Tesla electric vehicle is tailor-made for a certain set of drivers and passengers. Thereby, the same amount of travel and charging time across all models calls for varying amounts of electrical energy.
Tesla Model 3 Electric Sedan
One of the most lightweight and best-selling electric cars on the market today is Tesla’s Model 3, a tiny five-seater sedan.
The Model 3 requires the least amount of energy to fully recharge because of its small size and lighter curb weight (3582 Lbs. to 4065 Lbs.).
Furthermore, different Model 3 variants ship with different-sized battery packs that have their own specific power needs.
When completely charged, the battery pack included with the Standard Range Plus Model 3 electric automobile needs about 50 kWh of power.
The Model 3 EV has a range of 165 miles per charge and a useful electrical capacity of roughly 40 kWh.
In contrast, a full charge of the battery pack in the Long-Range version of Tesla’s Model 3 electric automobile consumes 82 kWh of power. When fully charged, the range of this vehicle is around 353 miles.
Electricity consumption for one mile of drive in a Tesla Model 3 is estimated at around 0.34 kWh. For the EV to drive 100 miles on a single charge, the battery will need to be charged by 34 kWh.
Tesla Model S Electric Sedan
After the success of the Model 3, Tesla released the Model S, a more opulent version of the sedan, to meet the demands of a different demographic.
The Model S electric sedan has a higher gross vehicle weight rating (between 4323 and 4960 pounds), necessitating a more powerful drivetrain to move the vehicle.
Because of this, the Model S EV consumes more power than the Model 3 car.
A complete charge of a Tesla Model S Standard Range vehicle typically takes 75 kWh of electricity. The luxury vehicle has a range of 270 miles on a full charge.
However, a Tesla Model S Long Range requires around 100 kWh of electricity to charge its battery, which allows the EV to go approximately 335 miles on a single charge.
One mile of travel in a Tesla Model S electric automobile will typically consume nearly 0.28 kWh of electricity. To travel 100 miles, the EV will need to be charged for 28 kWh of electricity.
Tesla Model X Electric All-drive SUV
Tesla’s initial attempt at an SUV, the Model X was designed for people who wanted a luxury vehicle but also needed the ability to go across rougher terrain in comfort.
Since the Model X SUV weighs between 5072 and 5531 pounds, its battery pack needs to be somewhat large in order to provide adequate power.
Multiple trim levels (75D, P90D, 100D, etc.) of the Model X SUV are now available. The 75D needs 75 kWh, the P90D needs 90 kWh, and the 100D needs 100 kWh for its electrical needs.
In comparison to the Model P90D’s 249 miles and the Model 100 D’s 295 miles, the Model X 75D’s range is 238 miles.
Nearly 0.34 kWh of electricity is required to travel 1 mile in a Tesla Model X electric SUV. For the EV to drive 100 miles on a single charge, the battery will need to be charged by 34 kWh.
Tesla Model Y Electric All-drive SUV
As demand for Tesla’s Model X SUV skyrocketed around the world, the company quickly followed up with the unveiling of the more expensive and feature-packed Model Y.
Because of its vast size and weight, the Model Y SUV requires a battery pack of comparable proportions to that of the Model X.
Different trim levels, called the Performance Range, Standard Range, and Long Range, are available for the Model Y SUV.
The battery pack in the Performance Range SUV needs 75 kWh of power in order to be fully recharged. As a result, the luxury SUV can reportedly drive 303 kilometers on a single charge.
Equally as much energy, 75 kWh, is needed to fully charge the battery in the Model Y Standard Range SUV. Consequently, the average SUV can drive around 244 miles on a single charge.
In order to fully recharge the battery of the Model Y Long Range SUV, 75 kWh of electricity must be supplied, just like with the other two models. It’s thanks to this that the electric SUV can go as far as 326 miles on a single charge.
The average electricity consumption for a single mile traveled in a Tesla Model Y luxury electric SUV is nearly 0.28 kWh. To travel 100 miles, the EV will need to be charged for 28 kWh of electricity.
The Exact Year of Manufacturing
Throughout the years, Tesla has regularly updated its many EV Models in order to maintain a competitive edge. The newest models have upgraded energy efficiency technologies and increased driving ranges.
Consequently, a Tesla electric vehicle produced in recent years will be more efficient and will require less electricity to travel the same distance.
The Charging Source Used by the Tesla Owner
When it comes to charging an electric vehicle, Tesla owners have a few different choices. They have the option of using either the home chargers given by Tesla or a public fast DC charging station to keep their electric vehicle’s battery charged.
The range and capacity of the Tesla EV’s battery will be drastically altered depending on the charging method most frequently employed.
The modest rate of charge provided by the home charging system helps preserve the Tesla’s battery life and driving range.
It is inevitable that the battery’s range and capacity will be lowered if the owner often utilizes quick public DC charging stations.
Therefore, the Tesla battery will not be able to store enough juice to go as far on a single charge.
Important advice to keep in mind is to take use of the Tesla at-home charging system as much as feasible.
The Battery’s Condition and Electric Charge Storing Capacity
A Tesla battery will permanently lose some of its charge holding capability if it is misused, only recharged after it has been completely depleted, or not repaired when necessary.
Since it can’t hold any more charge, a full charge will use less energy.
It is recommended that you establish and stick to a regular Tesla charging regimen, and that you take your car into a repair shop as soon as you notice any problems with the battery.
The Way the Tesla Driver Drives their Electric Vehicle
An EV’s battery life will decrease and its recharge frequency will increase if its driver frequently accelerates quickly.
The battery usage will increase and the EV will need to be charged more frequently if the driver regularly uses the brakes and does shorter trips.
However, the Tesla’s battery range will decrease and it will need to be recharged more frequently if the driver routinely navigates up and down steep inclines.
The key is to keep the Tesla’s acceleration constant for as long as possible while driving at safe speeds. In addition, the driver should go for the least strenuous route possible whenever possible.
The whole reliance on electric charging for a Tesla electric vehicle contributes to a decrease in the worldwide demand for fossil fuel.
There are always ways to reduce the yearly cost of charging a Tesla EV, even though it can get pricey at times, especially when utilizing commercial electricity in a place where the per-unit cost of electricity is high.
It is possible to significantly reduce the cost of charging a Tesla by taking advantage of the home charging station, solar energy, and the free Tesla destination chargers.