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Why Electric Cars Are Better

Why Electric Cars Are Better

Electric vehicles have gone from a niche curiosity to a rapidly growing segment of the auto market. As battery costs fall and charging infrastructure expands, more and more drivers are seeing the compelling advantages of going electric.

But what exactly makes electric cars so superior to gas-powered vehicles? On the surface, they may seem like just another car. But under the hood, electric cars represent a massive technological leap forward, offering major benefits for performance, the environment, and your wallet.

In this in-depth guide, we’ll explore all the ways electric cars are fundamentally better machines. We’ll look at how they produce zero emissions while driving, drastically reduce noise and air pollution, and provide instant torque for incredible acceleration.

You’ll learn how lower maintenance requirements and cheap “fuel” costs in the form of electricity make them far more affordable over the lifetime of ownership. And we’ll see how home charging, expanding public charging networks, and lower depreciation is making them accessible to more and more drivers.

By the end, you’ll understand exactly why electric is the future of transportation. The benefits speak for themselves – electric cars are simply engineered to outperform gas-powered cars on nearly every metric.

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Lower Environmental Impact

One of the biggest benefits of electric cars is their drastically reduced environmental impact. Studies have conclusively shown that even when factoring in battery production, electric cars generate far less lifetime emissions than gas cars. This is because electric motors are extremely efficient at converting energy into power to move the wheels. On average, electric vehicles convert over 77% of the electrical energy from the grid to power at the wheels, whereas gas vehicles only convert about 12%-30% of the energy stored in gasoline.

Battery manufacturing does lead to higher upfront emissions for electric cars. However, electric vehicles produce zero tailpipe emissions while driving, whereas gas cars continue to emit greenhouse gases. This means that over the total lifetime, accounting for manufacturing, driving, and eventual recycling or disposal, electric cars produce far less emissions. On average, electric cars have about a third of the lifetime emissions of a comparable gas-powered vehicle.

Electric cars also produce zero emissions while driving, reducing air and noise pollution, especially in urban areas. Studies have shown that widespread adoption of electric vehicles can significantly improve air quality and related public health. The environmental benefits of electric cars make them a key part of efforts to reduce greenhouse gas emissions and mitigate climate change.


Cleaner Air

One of the biggest advantages of electric vehicles is that they produce zero tailpipe emissions while driving. An electric motor has no exhaust pipe spewing out pollutants like a gas engine does. This means that electric cars don’t contribute to air pollution in cities and towns as they drive around. Studies have shown that air quality improves dramatically as electric vehicle adoption rises in a region. Places like California that have high electric vehicle use have seen smog levels plummet as cleaner EVs replace gas-powered cars. The emissions reduction benefit is especially large for low-income and minority communities that are often situated near major roadways. Switching to EVs can help reduce asthma and other health issues exacerbated by traffic pollution in these neighborhoods.


Reduced Noise Pollution

One of the most noticeable benefits of electric vehicles is how quiet they are compared to gas-powered cars. The lack of a loud combustion engine running means the cabin stays very quiet while driving. Even at highway speeds, electric cars produce minimal noise.

This quiet operation significantly reduces noise pollution, especially in urban areas. Studies have shown electric vehicles generate half as much noise as a standard car when accelerating. At low speeds, they make virtually no noise at all. This is a huge improvement over the constant engine drone and revving noises that come with gas-powered cars.

The quietness also contributes to a more peaceful driving experience. Without loud engine sounds, you can better enjoy conversations or music inside the cabin. Driving an electric vehicle almost feels serene at times thanks to the quiet motors. Reducing noise pollution is an underrated but important benefit of electric cars for communities.


Lower Maintenance Costs

One of the biggest savings of owning an electric vehicle comes from significantly reduced maintenance costs. Electric motors have far fewer moving parts and complex systems than a gas engine. There’s no need for regular oil changes, replacing air filters, spark plugs, or timing belts. The regenerative braking system also reduces wear on brake pads compared to friction brakes. An EV powertrain is estimated to need about 25% less maintenance over its lifespan.

With a gas car, you can expect to spend on average around $0.10 per mile on maintenance and repairs over its lifetime. For an electric vehicle, that drops to around $0.03 per mile. For a driver putting 15,000 miles on their car per year, that adds up to over $1,000 in maintenance savings annually. Not having to budget for surprise repairs or major engine and transmission work every few years is a huge plus. The simplicity and durability of electric drivetrains pays off hugely in reduced operating costs.

An EV also requires far less routine maintenance between service intervals. There’s no need to regularly check oil and fluid levels, replace dirty filters, or rotate tires. Typical maintenance is limited to tire inflation, cleaning and inspecting brakes, and software updates. For most drivers an annual inspection is sufficient to keep an EV in top shape. The reduction in maintenance requirements makes ownership even more convenient.


No Oil Changes

One of the biggest maintenance costs for gas-powered cars is the need to frequently change the engine oil. This is because internal combustion engines require oil to lubricate all the moving parts and prevent excessive wear and tear. However, the heat and combustion contaminates the oil, causing it to break down over time. Gas engines need fresh oil every 5,000-10,000 miles to avoid damage.

In contrast, electric motors have far fewer moving components and do not require any traditional motor oil. The only fluid that occasionally needs replacement in an EV is the coolant for the battery and drivetrain. This coolant can last over 100,000 miles before needing a change. With no need for oil changes every few months, electric car owners save hundreds of dollars in maintenance costs over the lifetime of the vehicle.

The hassle of taking your car in for oil changes is also eliminated. No more waiting at the shop for an hour or remembering to make an appointment. EVs completely remove the routine maintenance required by gas engines, saving owners time and money.


Cheap ‘Fuel’ Costs

It’s not just the planet that saves when you drive electric – your wallet benefits too. Electricity as a fuel is significantly cheaper than gasoline per mile driven. The average price per kilowatt hour (kWh) of electricity in Canada is around 12 cents. With electric vehicles averaging about 20 kWh per 100 km, this works out to around 2.4 cents per km. Compare that to gas vehicles which average around 10L/100km and with gas prices averaging $1.20/L, works out to 12 cents per km. That’s 5 times more expensive than driving electric!

Charging at home offers even greater savings since residential rates are cheaper than public charging stations. Home charging can cost as little as 1 cent per km. For the typical driver going 20,000km per year, that’s a yearly fuel savings of $1,600 when switching from a gas to an electric vehicle.

Electricity prices also tend to be more stable than fluctuating gas prices. This helps budgeting and cost predictability. Between lower electricity rates and home charging discounts, the savings driving electric really add up over time.


Superior Performance

Electric motors provide instant torque, delivering powerful acceleration and allowing them to outperform most gas cars. The heavy battery pack stored low in the chassis also gives them an exceptionally low center of gravity. This allows electric cars to handle incredibly well, almost like being on rails. The smooth delivery of power also creates a comfortable and quiet ride. For drivers looking for thrilling performance, electric cars deliver.


Responsive Handling

One of the best features of electric cars is how they handle on the road. The heavy battery pack that powers electric cars is located low in the chassis, giving them an exceptionally low center of gravity. This allows electric cars to take corners and turns with very little body roll, sticking to the road as if they’re on rails. Drivers will be amazed at how nimble and responsive electric cars feel compared to traditional gas-powered vehicles.

The instant and smooth torque delivery also enhances handling. There’s no waiting for gears to shift or the engine revs to climb. Electric motors provide full torque the moment you hit the accelerator, allowing you to smoothly accelerate out of corners. This makes electric cars feel glued to the road and able to change direction on a dime.

In addition, many electric cars come equipped with all-wheel drive thanks to having an electric motor powering each axle. The precision of electric all-wheel drive systems combined with the low center of gravity gives electric cars incredible traction and control. Drivers will enjoy hugging curves and maneuvering through tricky sections of road with ease.

For those who enjoy a responsive and dynamic driving experience, electric cars deliver in ways that gas-powered cars simply can’t match. The low center of gravity and instant torque make electric cars feel like they’re handling on rails.


Smooth Ride

One of the most noticeable benefits of electric cars is their smooth and quiet ride. Unlike gas engines that have uneven power delivery and loud noises from the pistons and transmission, electric motors provide consistent torque instantly when accelerating. There’s no gear shifting or engine revving. The motor quietly hums as it efficiently delivers power to the wheels.

This makes for a much more comfortable driving experience, almost surreal for some first-time EV drivers. The smooth acceleration and deceleration is akin to gliding effortlessly. The lack of engine vibrations and noise also creates a peaceful cabin environment. Passengers can converse normally without raising their voice. The premium ride quality of electric cars is a major selling point for many drivers.


Quiet Cabin

One of the most noticeable differences when driving an electric vehicle is the serene quietness of the cabin. Without the rumble of an internal combustion engine, electric cars produce very little noise while cruising down the road. Engine vibrations and noise are essentially eliminated with an electric powertrain. The only sounds drivers may hear are a faint electric motor whine under hard acceleration and tire noise.

This quietness has several advantages. Conversations are much easier without engine roar constantly in the background. Listening to music or taking phone calls is more enjoyable without distraction. Driving becomes more relaxing without loud revving during acceleration. Road noise like horns or sirens can be heard more clearly. Overall, the hushed interior creates a more pleasant and upscale driving experience.

The quietness also highlights one of the main benefits of electric vehicles – the lack of tailpipe emissions. Without the audible reminder of engine exhaust, you can enjoy the smooth silent ride knowing you are not polluting the air. The quiet cabin represents the clean and emission-free nature of electric vehicle technology.


Home Charging Savings

One of the biggest perks of electric vehicles is the ability to charge up right at home. Installing a Level 2 charger in your garage or carport provides cheap, convenient charging. Electricity rates are a fraction of the cost of gasoline per mile. The average driver will spend around $600 per year to fuel an EV, compared to over $2000 for the average gas car. Plus you’ll avoid trips to the gas station altogether by plugging in overnight.

Many electric utilities offer special rates  for EV charging during off-peak hours, making overnight home charging even more affordable. With some utilities, you can charge for just a few cents per kWh in the middle of the night. Smart chargers that can schedule charging sessions during discounted hours help maximize savings.

Home charging provides freedom, saving you time and money. Just plug in when you get home and wake up to a full “tank” every morning. With most EVs providing over 200 miles of range on a single charge, home charging is all you need for daily driving.


Expanding Charging Network

Another advantage of electric vehicles is the rapidly expanding public charging infrastructure. Major investments are being made to build out thousands of new public charging stations across the country. For example, the federal government has allocated billions in funding to states to construct a national network of EV chargers along major highways. Many local governments are also installing public chargers in downtown areas, parking garages, parks, and other convenient locations.

In addition, most new public buildings, shopping centers, restaurants, and other businesses are starting to offer EV charging. So even if you can’t charge at home, there are more and more options to conveniently top up your battery when out and about. Range anxiety due to lack of charging used to be a major concern, but with the proliferation of public stations this is becoming less of an issue for EV drivers. The charging network is expanding faster than the growth in EVs, ensuring convenient and abundant charging options into the future.


Lower Total Cost of Ownership

One of the most compelling reasons to go electric is the total cost savings over the lifetime of an EV compared to a gas-powered car. Though EVs have a higher upfront purchase price, they more than make up for it through significantly lower operating and maintenance costs. Gas cars require oil changes, belt replacements, transmission maintenance, and engine repairs over their lifetime. EVs completely eliminate most of these expenses with their simpler electric motors and fewer moving parts. There are no oil, spark plugs, or timing belts to replace. Brake pad replacements are also less frequent due to regenerative braking. These savings quickly add up, with most EV owners saving between $6,000 to $10,000 in maintenance and repairs over the vehicle’s lifespan.

It’s not just repairs where EVs save money – charging an EV is far cheaper than gassing up. Electricity prices are lower per mile than gasoline, even when charging at home with higher residential rates. Many EV owners can also take advantage of free public charging stations to reduce costs even further. Some workplaces even offer free EV charging as an employee benefit. Considering both lower maintenance costs and ‘fuel’ costs, studies have definitively shown EVs cost significantly less to own over a 5 to 10 year period, despite their higher initial purchase price.



In summary, electric cars provide a number of clear benefits over gas-powered vehicles. They have a drastically reduced environmental impact, with zero tailpipe emissions and lower lifetime CO2. Maintenance and fuel costs are slashed thanks to the simple electric drivetrain and cheap electricity. Performance is excellent with instant torque delivery and low centers of gravity. As charging networks expand, range anxiety also continues to decline. And studies have shown total ownership costs are lower as well over the life of the vehicle.

With continuously improving technology and dropping prices, electric vehicles will only become more and more compelling options. Sales growth has averaged over 50% a year for the past decade. Nearly every major automaker is investing billions into new EV models. It’s clear the transition away from internal combustion engine cars is accelerating. For most drivers, the numerous benefits make electric cars the obvious choice for their next vehicle purchase.


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Questions About If Electric Cars Are Better

Electric cars are better in Canada for several reasons. First, Canada’s clean electricity grid means driving an EV emits much less greenhouse gases than a gas-powered car over its lifetime. EVs also have lower fuel and maintenance costs compared to gas cars. Additionally, government incentives in Canada make purchasing or leasing an EV more affordable.


EVs perform very well in cold weather thanks to efficient drivetrains and battery thermal management systems that keep batteries warm. Rapid charging networks across Canada also enable long distance travel. With Canada having an abundance of clean electricity from renewable sources, EVs can reduce the country’s greenhouse gas emissions from transportation.

Yes, modern electric cars are well equipped to handle Canada’s cold climate thanks to battery thermal management systems and efficient drivetrains. Battery packs are actively heated or cooled to maintain an optimal temperature range for maximum range and performance. Canadian winters do reduce an EV’s range compared to warmer seasons, but many EVs still achieve over 200 km of real world range on a full charge.


EV motors and drivetrains are also very efficient in cold weather. Regenerative braking recovers energy when slowing down, taking pressure off the friction brakes. Electric drivetrains have instant torque for confident acceleration, traction control, and stability systems to handle snow or ice. Tire choice also plays a key role. Overall EVs perform very well for winter driving needs.

Modern EV batteries hold up very well in Canada’s cold winters thanks to sophisticated thermal management systems. Liquid heating and cooling maintains the battery temperature in an optimal range between 20°C to 40°C for the best performance and longevity.


While extremely cold temperatures can reduce an EV’s driving range by 25-35% compared to warmer weather, winter range loss continues to improve with advancing battery chemistries. Many new EVs boast over 200 km of real world range even in the depth of a Canadian winter. Smart preconditioning while plugged in also warms the batteries to maximize winter range.


Overall EV battery packs are well insulated, water tight, and rugged enough to handle years of Canadian winters while still retaining up to 70-80% of original capacity. Thermal management and improved chemistries make them very effective in cold conditions.

Electric cars can be charged rapidly at DC fast charging stations across Canada. DC fast chargers work by directly supplying DC current to an EV’s battery, bypassing the onboard charger. Many can deliver over 100 kW of power, providing 200+ km of range in 15-30 minutes of charging.


The charge rate depends on the vehicle’s maximum charging capacity, battery size, state of charge, and battery temperature. With 800V battery architectures coming to more models, charging speeds of under 15 minutes to add hundreds of km will become mainstream this decade.


Canada’s major charging networks like Flo, Petro-Canada, and Ivy all operate hundreds of DC fast charging locations. Important transport corridors like the Trans-Canada Highway will continually add more DC fast chargers for convenient long distance EV travel across Canada.

Electric cars perform very well under highway driving conditions thanks to instant torque from EV motors and low centers of gravity from having battery packs mounted low in the chassis. Having full torque available from a standstill enables confident merging and passing maneuvers.


The aerodynamic design of most EVs also makes them very stable at higher speeds. Multi-link rear suspensions provide a smooth ride over rough pavement. Regenerative braking recovers energy and reduces wear on the friction brake pads during repeated highway deceleration.


Many new EVs boast EPA highway range figures over 150 miles per charge. For example, a 2023 Tesla Model 3 Long Range is officially rated at 140 MPGe highway efficiency and 358 miles of total range. With Canada’s continually improving fast charging networks, driving long highway distances is becoming very feasible in today’s capable EVs.

Electric cars have proven to be very reliable in Canada’s varying climates. Having far fewer moving parts than internal combustion engines, EV drivetrains are less prone to mechanical wear and tear. Regenerative braking also reduces friction brake repairs.


EV batteries and electrical systems are fully enclosed and ruggedized to withstand Canada’s temperature extremes from -40 °C in winter to +40 °C in summer. Thermal management systems maintain optimal battery temperatures year round. With no engine fluids to freeze or boil over, EVs avoid many cold or hot weather issues gas cars can experience.


In Consumer Reports reliability surveys, EVs consistently score much higher than the average gas-powered vehicle. Overall EVs provide reliable and consistent operation through Canada’s diverse regional climates thanks to their technical maturity and enclosed, weatherproofed designs.

Insuring an electric vehicle in Canada is quite affordable thanks to their higher safety ratings and lower repair costs compared to gas-powered vehicles. For example, a 2023 Tesla Model 3 only costs approximately $1600 annually to insure in Ontario. Other Canadian provinces have comparable rates depending on driving history.


Due to having fewer components overall, EV repair costs are reduced by 30 to 50% over gas-powered cars. Regenerative braking also reduces wear-and-tear on friction brake components. The lack of combustion engine fluids and gases also prevents many types of fire or explosion damage.


Insurance rates are heavily influenced by safety ratings as well – EVs consistently score very well thanks to weight distributions optimized by floor-mounted battery packs. Having no engine also creates larger front crumple zones for crash protection. Overall, insuring an EV in Canada is very affordable.

Charging an electric car at home in Canada costs a fraction of fueling a gas-powered vehicle. For example, a 2023 Nissan Leaf with a 60 kWh battery travelling 20,000 km a year would use about 12,000 kWh. At an average residential rate of $0.16 per kWh in Canada, annual charging cost is under $2000.


For a gas car averaging 8L/100 km fuel efficiency at $1.25/liter, travelling 20,000 km per year equates to $2000 per year in gasoline. And electricity prices are more stable than fluctuating gas prices. Public DC fast charging typically costs around $0.30-$0.40 per kWh, still very affordable compared to gas.


Considering Quebec and Manitoba residential rates averaging $0.08 per kWh, EV charging there can cost as little as $800 annually. Overall electricity is a cheaper and more stable “fuel” for powering EVs across Canada.

While the majority of current electric cars are not specifically equipped for towing, many new EV models coming to market have impressive tow ratings rivaling gas-powered trucks and SUVs.


The 2023 GMC Hummer EV Pickup boasts exceptional towing capacity up to 4500 kg (10,000 pounds). The 2024 Ford F150 Lightning is factory rated to tow up to 4535 kg (10,000 lbs) as well. The Rivian R1T pickup can tow over 5000 kg (11,000 lbs).


These electric trucks can haul similar weight loads in the bed as diesel-powered pickups thanks to robust chassis, suspensions, brakes, and specially calibrated traction/stability controls. Regenerative braking helps control speed during descents while towing as well.


As EV technology keeps advancing, electric vehicles will match or surpass gas vehicles regarding all hauling and towing metrics. Several exciting EV trucks and SUVs launching in 2023 and 2024 make this a reality.

Finding electric vehicle charging stations in Canada is very easy thanks to charging network apps and built-in EV navigation systems. Apps like PlugShare, ChargeHub, Flo, and Petro-Canada show all nearby charging stations on a map in real time.


Built-in EV navigation provides charging locations along your route, charge status to destination, suggestions for charging stops if needed, and more. Many trip planning apps now incorporate charging locations into their database as well.


Canada’s major transport corridors like the Trans-Canada Highway are continually expanding DC fast charging availability from coast to coast. Major urban centers also have large concentrations of public charging infrastructure. So EV charging access will only become more convenient across Canada over time.

Several federal and provincial government incentives are available when purchasing a new electric vehicle in Canada:


– Federal iZEV Program – Up to $5000 off select EVs

– BC Provincial Rebate – Up to $4000 back on new EV purchases

– Quebec Provincial Rebate – Up to $8000 rebate on select EVs

– Ontario Incentive Program – Up to $7000 rebate on eligible EVs

– Nova Scotia Rebate – $3000 rebate on new EV purchases

– New Brunswick Incentive – Up to $5000 rebate on new EV buys


These incentives effectively reduce the upfront purchase prices of electric vehicles by thousands of dollars to make them even more affordable options for Canadian drivers to choose.

Replacement EV batteries and parts are becoming widely available from recycling programs, parts remanufacturers, scrapyards, private sellers and more as early EVs age over 10+ years old. However most EV batteries are proving very durable.


Manufacturers expect EV battery packs to last 10-15 years before needing replacement. Many older EVs still operate very well past 200,000+ km on their original battery packs thanks to battery management systems. Once replaced, the batteries can be fully recycled.


Canadian battery specialists like Electra Battery Materials are beginning to domestically remanufacture, recycle and supply replacement EV cells/packs to extended vehicle lifespan. Aftermarket EV battery retailers also source imported refurbished modules at significant cost savings over new packs.

EVs are relatively easy for qualified technicians to service thanks extensive factory training programs, online reference libraries, diagnostic software access, and specialty tools available. Brand-specific training ensures technicians follow proper procedures for safely handling EV systems.


Since EVs have far fewer components overall than gas vehicles, service requirements are less frequent. But technicians still must undergo extensive hands-on training to properly access and service high-voltage systems. Automakers provide these programs at local colleges and trade schools across Canada.


The National Institute for Automotive Service Excellence also began offering Certified EV Technician Specialist accreditation in 2022 for qualified professionals skilled in EV service and repair. Industry resources continue improving to support Canada’s skilled EV technician workforce.

Driving on clean Canadian electricity makes electric cars very environmentally friendly. Canada already sources over 80% of its electricity from renewable hydro and nuclear generation, emitting 40 times less CO2 than the average gasoline car.


Provinces like Quebec at 99% hydroelectricity and Ontario at 95% emissions-free sources make EVs extremely green. Even Alberta and Saskatchewan with higher coal reliance still emit 25% less emissions charging an EV compared to driving the average gas-powered car.


As Canada continually expands renewable wind, solar, tidal, geothermal and hydropower energy assets into its grids, powering electric vehicles will become near carbon neutral. Canadian electricity therefore enables EVs to provide very eco-friendly personal transportation as grids decarbonize.

Electric vehicle battery packs are designed to be recycled sustainably through reuse, remanufacturing and closed-loop recovery of raw materials. EV batteries must be easily removable and use modular components to facilitate disassembly and material separation at end-of-life.


Recycling systems first determine if used battery packs can be refurbished and redeployed into less demanding stationary grid storage applications. Cells too degraded for vehicles can still serve 6-10 more years in grids before final materials recovery.


Valuable metals and elements are recovered through shredding, sorting, and hydrometallurgical processes which dissolve targeted materials in solution for purification and renewed use in new batteries. Automakers aim to recover over 90% of an EV battery’s mass to reuse indefinitely.

There are many exciting new electric vehicles coming to Canada over the next 5 years. Some highlights:


– Ford F150 Lightning pickup with up to 600 km range

– 675 hp Cadillac LYRIQ performance SUV

– 600+ hp GMC HUMMER EV SUV and pickup trucks

– 300+ mile Chevy Silverado EV pickup

– 400+ mile range Lucid Air luxury EV sedan

– 500+ km Cybertruck from Tesla

– 300 mile Subaru Solterra EV SUV

– 400 mile range Nissan Ariya crossover

– 500 km range Kia EV9 electric SUV


Canadians have a lot to look forward to as every major automaker plans to launch new EV models with ever-improving range, performance, charging speed, and features over the coming years. An all-electric driving future looks very bright in Canada!

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