Most of us first hear about the irrational number π (pi)—rounded off as 3.14, with an infinite number of decimal digits—in ...

IISc researchers reveal connections between Ramanujan's pi formulae and modern high-energy physics, enhancing calculations in turbulence and black hole theories.

IISc researchers connect Ramanujan’s century-old pi formulae with modern physics, uncovering surprising mathematical ...

BENGALURU: Everyone has studied the irrational number π (pi) in school and wondered what is its use in modern day life.

By establishing a larger principle for how things shatter, certain energy-intensive tasks could gain an advantage.

A new study reveals that Srinivasa Ramanujan’s century-old formulas for calculating pi unexpectedly emerge within modern theories of critical phenomena, turbulence, and black holes. In school, many of ...

Dreaming of visiting other stars? The universe has built in walls we cannot break. This video confronts the harsh physics ...

BENGALURU: Everyone has studied the irrational number π (pi) in school and wondered what is its use in modern day life.

A recent investigation uncovers Srinivasa Ramanujan’s pi equations as central not only to advanced computing but also as mathematical patterns emerging in high-energy physics, deepening scientific ...

Ramanujan's pi-computing machinery exactly mirrors the necessary structure in modern physical theories (LCFTs).

Electrons can be elusive, but Cornell researchers using a new computational method can now account for where they go—or don't ...

Zanskar uses AI to identify hidden geothermal systems—and claims it has found one that could fuel a power plant, the first ...