In Gwalior, a congested city in the centre of the India, an 8th-Century fort rises with medieval swagger on a plateau in the town’s heart. Gwalior Fort is one of India’s largest forts; but look among the soaring cupola-topped towers, intricate carvings and colourful frescoes and you’ll find a small, 9th-Century temple carved into its solid rock face.
This is ground zero for zero
Chaturbhuj Temple is much like many other ancient temples in India – except that this is ground zero for zero. It’s famous for being the oldest example of zero as a written digit: carved into the temple wall is a 9th-Century inscription that includes the clearly visible number ‘270’.
The invention of the zero was a hugely significant mathematical development, one that is fundamental to calculus, which made physics, engineering and much of modern technology possible. But what was it about Indian culture that gave rise to this creation that’s so important to modern India – and the modern world?
The earliest known example of zero written as a digit can be found in a temple inside Gwalior Fort in India (Credit: Mariellen Ward)
Nothing from nothing
I recalled a TED talk by renowned Indian mythologist Devdutt Pattanaik in which he tells a story about Alexander the Great’s visit to India. The world conqueror apparently met what he called a ‘gymnosophist’ – a naked, wise man, possibly a yogi – sitting on a rock and staring at the sky, and asked him, “What are you doing?”.
“I’m experiencing nothingness. What are you doing?” the gymnosophist replied.
“I am conquering the world,” Alexander said.
They both laughed; each one thought the other was a fool, and was wasting their life.
This story takes place long before that first zero was inscribed on Gwalior’s temple wall, but the gymnosophist meditating on nothingness does in fact have a connection to the digit’s invention. Indians, unlike people from many other cultures, were already philosophically open to the concept of nothingness. Systems such as yoga were developed to encourage meditation and the emptying of the mind, while both the Buddhist and Hindu religions embrace the concept of nothingness as part of their teachings.
Both the Buddhist and Hindu religions embrace the concept of nothingness as part of their teachings (Credit: Mariellen Ward)
Dr Peter Gobets, secretary of the Netherlands-based ZerOrigIndia Foundation, or the Zero Project, which researches the origins of the zero digit, noted in an article on the invention of zero that “Mathematical zero (‘shunya’ in Sanskrit) may have arisen from the contemporaneous philosophy of emptiness or Shunyata [a Buddhist doctrine of emptying one’s mind from impressions and thoughts]”.
In addition, the nation has long had a fascination with sophisticated mathematics. Early Indian mathematicians were obsessed with giant numbers, counting well into the trillions when the Ancient Greeks stopped at about 10,000. They even had different types of infinity.
Hindu astronomers and mathematicians Aryabhata, born in 476, and Brahmagupta, born in 598, are both popularly believed to have been the first to formally describe the modern decimal place value system and present rules governing the use of the zero symbol. Although Gwalior has long been thought to be the site of the first occurrence of the zero written as a circle, an ancient Indian scroll called the Bhakshali manuscript, which shows a placeholder dot symbol, was recently carbon dated to the 3rd or 4rd Centuries. It is now considered the earliest recorded occurrence of zero.
The mathematical zero – ‘shunya’ in Sanskrit – may have arisen from Shunyata, the Buddhist doctrine of emptying one’s mind (Credit: Mariellen Ward)
Marcus du Sautoy, professor of mathematics at the University of Oxford, is quoted on the university’s website as saying, “[T]he creation of zero as a number in its own right, which evolved from the placeholder dot symbol found in the Bakhshali manuscript, was one of the greatest breakthroughs in the history of mathematics. We now know that it was as early as the 3rd Century that mathematicians in India planted the seed of the idea that would later become so fundamental to the modern world. The findings show how vibrant mathematics have been in the Indian sub-continent for centuries.”
But equally interesting are the reasons as to why the zero wasn’t developed elsewhere. Although the Mayans and Babylonians (and many other civilisations) may have had a concept of zero as a placeholder, the idea is not known to have developed as a number to be used in mathematics anywhere else. One theory is that some cultures had a negative view of the concept of nothingness. For example, there was a time in the early days of Christianity in Europe when religious leaders banned the use of zero because they felt that, since God is in everything, a symbol that represented nothing must be satanic.
So maybe there is something to these connected ideas, to the spiritual wisdom of India that gave rise to meditation and the invention of zero. There’s another connected idea, too, which has had a profound effect on the modern world.
The concept of zero is essential to a system that’s at the basis of modern computing: binary numbers.
The concept of zero is essential to binary numbers, the system at the basis of modern computing (Credit: CSueb/Alamy)
Silicon Valley, India-style
As you drive out of Bengaluru’s Kempegowda International Airport towards the city centre, about 37km away, you’re greeted by several large signs stuck somewhat incongruously into the ground of rural India. They proclaim the names of the new gods of modern India, the companies at the forefront of the digital revolution. Intel, Google, Apple, Oracle, Microsoft, Adobe, Samsung and Amazon all have offices in Bengaluru, along with home-grown heroes like Infosys and Wipro.
The sleek airport and shiny signs are the first indicators of transformation. Before the IT industry came to Bengaluru, it was called Bangalore, and was known as Garden City. Now it’s Bengaluru and is known as the Silicon Valley of India.
What started in the 1970s as a single industrial park, Electronic City, to expand the electronics industry in the state of Karnataka, has paved the way for today’s boomtown. The city now boasts many IT parks and is home to nearly 40% of the country’s IT industry. Bengaluru may even overtake Silicon Valley, with predictions suggesting it could become the single largest IT hub on Earth by 2020, with two million IT professionals, six million indirect IT jobs and $80 billion in IT exports.
It’s binary numbers that make this possible.
Electronic City in Bengaluru is predicted to become the single largest IT hub on Earth by 2020 (Credit: Joerg Boethling/Alamy)
Modern-day digital computers operate on the principle of two possible states, ‘on’ and ‘off’. The ‘on’ state is assigned the value ‘1’, while the ‘off’ state is assigned the value ‘0’. Or, zero.
“It is perhaps not surprising that binary number system was also invented in India, in the 2nd or 3rd Centuries BCE by a musicologist named Pingala, although this use was for prosody,” said Subhash Kak, historian of science and astronomy and Regents Professor at Oklahoma State University.
Lalbagh Botanical Gardens is at the cultural and geographical centre of Bengaluru, a symbol of ‘old Bangalore’ and the first must-see place locals recommend. Originally designed in 1760 with many later additions, it has a distinctly Victorian feel to it, featuring 150 types of roses and a glass pavilion made in the late 1800s and patterned after London’s famous Crystal Palace. Lalbagh is a treasure in a city that is one of the fastest growing in Asia, and a charming reminder of the days when Bengaluru was a favourite spot for retired British civil servants during the days of the Raj. They built quaint cottages with large gardens and quietly whiled away their retirement years enjoying the temperate climate and ideal growing conditions of the sleepy town.
Bengaluru’s Lalbagh Botanical Gardens is a treasure in a city that is one of the fastest growing in Asia (Credit: Mariellen Ward)
But old Bangalore is disappearing beneath much-needed infrastructure construction and the city’s ambitious expansion. In the 10 years from 1991 to 2001, Bengaluru grew a whopping 38%, and it’s now the 18th most populous city in the world with 12 million people. The traffic is arguably the worst in India, as infrastructure planning has not kept pace with the development of the many IT parks and the never-ending influx of IT workers.
The chaos and congestion that’s the hallmark of India’s metropolises reaches something of a zenith in Bengaluru, where it can take an hour to drive 3km. Nevertheless, the inhabitants carry bravely on, living as close to the high-tech campuses as possible – and even on them in some cases – creating start-ups, designing software and supplying the world with IT products and know-how. It’s hard to imagine the number of computer chips and bits and programs that have come from Bengaluru, the number of computers and devices built and powered. And even more impossible to imagine is the number of binary-system zeroes it has all taken.
And yet all of this started in India… from nothing.
CLARIFICATION: A previous version of this story did not note that other civilisations, including the Mayans and the Babylonians, may have developed their own concepts of zero. We have updated the text accordingly.
Places That Changed the World is a BBC Travel series looking into how a destination has made a significant impact on the entire planet.
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