Skip to main content

How to watch (and appreciate) the Indy 500, the ‘greatest spectacle in racing’

Indy 500 primer
Image used with permission by copyright holder
It has been called the “Greatest Spectacle in Racing.” It’s one of the few races people not familiar with motor sport have heard of. It’s 500 miles of wheel-to-wheel driving on an oval track known as “The Brickyard.” It’s the Indy 500. But what is this legendary race really all about? Buckle up, because we’ve got everything you need to know right here.

The culture

The track

This year marks the 101st running of the Indy 500, but the first 500-mile race was held in 1911, not 1916. Races were cancelled a handful of times because of World Wars I and II. The track itself opened in 1909 and was paved with 3.2 million bricks, which is why it’s still called “The Brickyard” to this day. The bricks have long since given way to pavement, except on the start/finish line.

Recommended Videos

Indianapolis Motor Speedway was originally envisioned as a test track as well as a racing venue.

Indianapolis Motor Speedway was originally envisioned as a test track as well as a racing venue. In the early days of the auto industry, Indianapolis actually rivaled Detroit and had several native car companies. Forty cars entered the first Indy 500, and today the grid is limited to 33 cars. Typically, there are more drivers than available slots, but for the past two years, exactly 33 cars have shown up.

Indy is a 2.5-mile oval with banked turns, so it takes 200 laps to cover 500 miles. The banking and long straightaways let drivers hit higher speeds than more technical road courses. Modern cars at Indy can top 200 mph, so engineers must carefully balance the reduction of aerodynamic drag with downforce — the use of airflow to help stick cars to the track — which can lower top speed.

The track is actually located in (appropriately named) Speedway, Indiana, a few miles from Indianapolis proper. Besides the oval, Indy is known for the huge trackside pagoda and scoring tower on the front straightaway, and “Gasoline Alley,” the row of garages where teams work on their cars. The track was treated to a $90 million renovation in 2016, including a new upper grandstand, fencing, and front entrance.

Indy 500 primer
Image used with permission by copyright holder

The format is similar to other races, with practice sessions, qualifying sessions that determine the starting order, and the race itself. While most races contain all of that in one weekend, the Indy 500 spreads it out over about two weeks, with the main event on Sunday, May 28. Last year’s winner, Alexander Rossi, completed the race in 3 hours, 2 minutes, and .08 seconds. Compare that to Ray Harroun, who won the first Indy 500 in 1911. It took him 6 hours, 42 minutes, and 8 seconds to run the requisite 500 miles.

While the winners of most other major races celebrate with champagne, the Indy 500 winner traditionally downs milk, and is presented with the Borg-Warner trophy. The sterling silver trophy includes the likeness of every winner since the first race in 1911.

The cars: A history of innovation

The evolution of Indy 500 race cars demonstrates how competition can both encourage and stifle innovation. Indy has often been a testing ground for radical ideas. Yet teams still want to win, and sticking with proven designs is almost always a better bet than trying something new and untested.

In the early years of the 500, everything was untested. The race was as much a trial for the then-new contraption known as the automobile as it was a competitive event, and early cars shared many components with production models. The first Indy 500 was won by Ray Harroun in a Marmon Wasp that incorporated two notable innovations: a single-seat design that set the template for most modern race cars, and a rearview mirror.

The evolution of Indy 500 racecars demonstrates how competition can both encourage and stifle innovation.

A diverse group of manufacturers participated in those early races, from Buick to Mercedes-Benz, but they were soon outclassed by one. Miller may be an esoteric name today, but this American firm dominated the Indy 500 in the 1920s and 1930s. Miller cars or cars using Miller engines won every race from 1928 to 1938. Much of Miller’s success came from engines with dual-overhead camshafts, a power-boosting design that wouldn’t be used on mainstream production cars for decades, but is now commonplace.

In the immediate postwar years, a different type of car came to dominate Indy. Known generically as “Roadsters,” these cars had the engine in the front, but offset to one side for better weight distribution, with the driver sitting more or less over the rear wheels. They were built by different race teams, but nearly every Roadster ran an Offenhauser four-cylinder engine. Dubbed the “Offy,” it was actually derived from a Miller design, and was so good it lasted in competition until the 1970s.

Once again, a single car design became the de facto Indy racer, but by the mid-1960s the winds of change were blowing again. At that time, British teams began building mid-engined race cars. Putting the engine in the middle makes for better weight distribution and more compact packaging. That’s why all modern IndyCars — not to mention Formula One cars and supercars from the likes of Ferrari and Lamborghini — have engines sitting behind their drivers.

Indy 500 primer
Image used with permission by copyright holder

By the end of the ‘60s, nearly the entire Indy field had shifted to mid-engined cars with either Offy or Ford Cosworth DFV engines. That’s not to say teams didn’t try other things along the way. In 1952, Cummins entered a car powered by a massive 6.6-liter diesel engine. In 1967, Parnelli Jones nearly won the race in the STP-Paxton Turbocar, which was powered by the turbine engine from a helicopter (it conked out with just three laps to go).

The last major technological milestone for Indy racers came in the realm of aerodynamics. Cars began sprouting spoilers in the 1970s, and by the 1980s they were also taking advantage of “ground effects,” or the channeling of airflow underneath the car to help suck it down onto the track. The first car to put all of those pieces together was the 1980 Chaparral 2K, nicknamed “Yellow Submarine” because of its Pennzoil livery. Soon, every car on the grid looked like it.

The cars: Today

And so we arrive at the IndyCar machines of today: Lightweight single seaters with mid-mounted engines and lots of aerodynamic aids. That formula likely won’t change anytime soon, as current rules lock teams into using a single car design. That’s supposed to level the playing field, but it also makes things a little less interesting.

Not that today’s IndyCar racers are unimpressive. All teams use the same chassis from Italian race-car manufacturer Dallara, with engines from Chevrolet or Honda. Both are twin-turbocharged, direct-injection V6s that produce 550 to 700 horsepower, depending on the track. During the Indy 500, the cars are capable of reaching speeds of up to 235 mph.

In a bid to differentiate Honda and Chevy-powered cars, organizers also introduced “aero kits” in 2015. While they succeeded in making the cars look different, the kits caused other problems. Honda’s version has made cars much slower than their Chevy counterparts. A low-drag version of the Chevy kit made cars a bit too fast, to the point where some left the ground in some heart-stopping crashes in 2015.

IndyCar is now reevaluating the aero kit rules, and plans to make changes for the 2018 season. Updates are expected to yield a sleeker design that will be applied to all cars, whether they have Chevy or Honda engines.

How to watch

Watch via ABC with cable or satellite subscription

Image used with permission by copyright holder

The most straightforward way to catch all the action is to watch the race live on ABC, which has exclusive coverage rights. Race-day coverage starts at 11:00 a.m. ET on May 28, while the race itself starts at 12:19 p.m. If you have a cable or satellite subscription, you’re good to go and, even if you don’t, you can catch the signal with an HD antenna.

You can also stream ABC live via the network’s website, but the service is currently only supported in select cities across the country, and it’s dependent upon your TV service provider. Check here to see whether your city is on the list. There’s an ABC app you can download, too, though it’s still subject to the same location-based restrictions. Below is a list of supported devices.

Apple iPad (iOS 8 or later) Android TV
Apple iPhone (iOS 8 or later) Android phones (varies by device)
Apple TV (2nd generation or later) Android tablets (varies by device)
Apple iPod touch (iOS 8 or later) Roku
Android & Kindle Fire tablets (varies by device) Amazon Fire TV
Xbox 360

Watch via ESPN3 or WatchESPN

Image used with permission by copyright holder

Assuming you pay for your internet — as opposed to stealthily signing on to your neighbor’s network — you can watch all the action through ESPN. Head to the WatchESPN website, and select “The 101st Indianapolis 500: Telecast presented by Firestone.” You’ll be prompted to log in with your ISP, then you’re good to go. ESPN will also be streaming 14 different in-car camera feeds during the race, so you can catch all of the action from the driver’s perspective (you can check the schedule here to see if your favorite driver has an in-car camera). You can access those feeds via the WatchESPN website.

If you don’t want to watch on your computer, you can use the WatchESPN app instead. If you’re watching on a phone or tablet, be wary — streaming video via LTE can be unreliable, and you don’t want the connection to cut out on the final lap. Below, check out a list of compatible devices. Happy racing!

Apple iPad (iOS 8 or later) Android TV
Apple iPhone (iOS 8 or later) Playstation 4
Apple TV Xbox One/Xbox One S
Apple iPod touch (iOS 8 or later) Android phones (Android 4 or later)
Android tablets (Android 4 or later) Chromecast
Roku Kindle Fire
Stephen Edelstein
Stephen is a freelance automotive journalist covering all things cars. He likes anything with four wheels, from classic cars…
Eaton, Treehouse to boost home capacity for EV charging, energy storage
eaton treehouse ev charging news releases

Power-management firm Eaton likes to point out that when it launched in 1911, it invested in a new idea -- the very first gear-driven truck axle -- just at a time when both transportation and power management were on the cusp of dramatic change.
More than 113 years later, Eaton is again seeking to lead innovation in the current energy transition.
The power-management firm just signed a deal with Treehouse, an AI, software-enabled installation platform for electrification projects. The end goal: accelerating the electrification of homes for electric-vehicle (EV) charging, energy storage, or heat pumps, while seeking more efficiency and cost savings.
“At Eaton, we’re all-in on the energy transition and we’re making it happen at scale by delivering breakout technologies and industry collaborations needed to delight customers and make it more accessible and affordable,” says Paul Ryan, general manager of Connected Solutions and EV Charging at Eaton.
The partnership will ensure consumers are provided with accurate and fast pricing, as well as access to licensed electricians to deliver code-compliant installations, the companies say.
The collaboration also integrates into Eaton’s “Home as a Grid” approach, which supports the two-way flow of electricity, enabling homeowners to produce and consume renewable energy when they need it, Eaton says.
“For more than a century, power has flowed in one direction—from centralized power plants into homes,” the company says. “Today, there’s a new reality thanks to solar, electric-vehicle charging, energy storage, digitalization, and more.”
Projects to change homes and EVs into energy hubs have multiplied recently.
Last month, Nissan joined ChargeScape, a vehicle-to-grid (V2G) venture that is already backed by BMW, Ford, and Honda. ChargeScape’s software wirelessly connects EVs to power grids and utility companies, enabling consumers to receive financial incentives for temporarily pausing charging during periods of high demand. Eventually, consumers should also be able to sell the energy stored in their EVs’ battery back to the power grid.
In August, GM announced that V2G technology will become standard in all its model year 2026 models. And Tesla CEO Elon Musk has hinted that Tesla could introduce V2G technology for its vehicles in 2025.

Read more
Chrysler, Dodge, Jeep and EVs offer big incentives as year nears its end
chrysler dodge jeep ev incentives record my24 hybrid gallery 04 exterior desktop jpg image 1440

It’s no secret that automakers and dealerships typically climb over each other to offer the best incentives before the year ends. But this year’s sales season is expected to be particularly competitive, with slowing sales translating to greater urgency to clear inventory.

According to research from Kelley Blue Book, the respected vehicle-valuation firm, overall incentives on new vehicle sales were up by 60% in October compared to the previous year.

Read more
Jeep, Ram EREVs will get 690-mile range with new Stellantis platform
A 2025 Ram 1500 Ramcharger sits in a vineyard.

Stellantis, the giant automotive group, is betting big on extending the range of both its hybrid and fully electric vehicles (EVs).

Last month, the company, which owns the Jeep, Dodge, and Ram brands in the U.S., invested nearly $30 million into an advanced wind tunnel at its research center in Auburn Hills, Michigan. The goal is to study airflow around a vehicle’s wheels and tires to further optimize its EVs and boost their range.

Read more