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Pakistan’s Arshad Nadeem goes past 90m before Neeraj Chopra: Why the javelin flies the way it does

With healthy rivalry between Pakistan's Arshad Nadeem and India’s Neeraj Chopra set to grow in future competitions, a look at the physics that makes a javelin fly past the 90m 'gold standard' distance.

Commonwealth Games, CWG 2022, Arshad Nadeem, javelin, Neeraj Chopra, javelin technique, javelin record, Indian ExpressArshad Nadeem of Pakistan makes an attempt in the Men's javelin throw during the athletics competition in the Alexander Stadium at the Commonwealth Games in Birmingham, England, Sunday, Aug. 7, 2022. (AP Photo/Alastair Grant)

Pakistan’s Arshad Nadeem Sunday gave his country its first javelin throw gold with a Commonwealth Games record mark of 90.18m. Nadeem has crossed the 90m barrier which India’s Neeraj Chopra is yet to breach. Chopra, who skipped the CWG competition due to injury, has his personal best recorded at 89.94m.

On August 7 last year, Chopra had won a javelin gold medal at the Tokyo Olympics to give India its first-ever gold in athletics. With healthy rivalry between the two stars set to grow in javelin competitions of the future, we look at the physics that makes a javelin fly past the 90m ‘gold standard’ distance.

Angle of throw

“Although high-school physics says that for maximum range, a projectile should be launched at a 45-degree angle, it is true only when the launch and the target are at the same height,” Dr Arnab Bhattacharya, professor at the Department of Condensed Matter Physics & Materials Science, Tata Institute of Fundamental Research, Mumbai, had tweeted last year.

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He explained that in javelin, the launch is 2m above ground and the target is at the ground and there are many aspects of aerodynamics involved. This makes the optimal angle 36-degrees.

Design is key

The key concept is that the centre of gravity has to be ahead (4 cm) of the centre of pressure. “This is already inbuilt in the design of a modern javelin. The shape and weight distribution of the javelin are such that the centre of gravity is ahead of the centre of pressure. The player holds it around the centre of gravity when throwing,” Prof Bhattacharya had further explained in an email to The Indian Express.

The variables

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The javelin must dip at all times in flight and the tip must hit the ground first.

Other variables that determine the trajectory and final distance thrown are the initial run-up, angular momentum, release dynamics (speed, height, angle).

It is believed that the average maximum run-up speed of an elite thrower ranges from 5-6m/s (20km/h), and elite throwers release the javelin at 28-30m/s (100km/h).

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Prof Bhattacharya adds that the angle of attack, wind direction and speed, air temperature, and density also play important roles.

“Looking purely at the physics of the throw – for the javelin, lift from the air is an important factor. Lower air temperature means slightly denser air, which gives slightly more lift that enables a slightly more distance covered. These effects will be small, but remember that in the Olympics you can break a record or miss a medal by just a few mm,” he explained.

The rules

The size, shape, minimum weight, center of gravity of the javelin, surface finish (no rough paint, dimples etc), and allowed throwing techniques are all regulated by the International Association of Athletics Federations, the professor highlighted.

“Javelin throw is a rare event where the IAAF intervened to change rules to force throw distances to be reduced, as changes (based on physics!) such as hollow, designer cross-section, surface texture made javelins more aerodynamic,” he tweeted.

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Asked if there are any more changes that can be made based on physics, he explained that the IAAF has taken care to avoid “high-tech gimmicks” that can boost performance – “which would be available only to people who could afford to put in the resources to do all kinds of aerodynamic simulations and make ‘better’ javelins…”

“I’d really love to see if someone can figure out a different way to throw it which makes the javelin go further. Of course, in today’s world, given that you have access to powerful computation and all sorts of sensors, it would again be easier for well-resourced participants to play around with different throwing styles and see what might work better, while still being within the extant rules,” he added.

First published on: 09-08-2022 at 07:52:55 am
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