prove that π is irrational
Answers
Answered by
3
Answer:
the 1760s, Johann Heinrich Lambert proved that the number π (pi) is irrational: that is, it cannot be expressed as a fraction a/b, where a is an integer and b is a non-zero integer. In 1882, Ferdinand von Lindemann proved that π is not just irrational, but transcendental as well. ...
hope it help
Answered by
7
Answer:
☆ No matter how big your circle, the ratio of circumference to diameter is the value of Pi. Pi is an irrational number---you can't write it down as a non-infinite decimal. This means you need an approximate value for Pi. The simplest approximation for Pi is just 3.
☆ In the 1760s, Johann Heinrich Lambert proved that the number π (pi) is irrational: that is, it cannot be expressed as a fraction a/b, where a is an integer and b is a non-zero integer. In 1882, Ferdinand von Lindemann proved that π is not just irrational, but transcendental as well
Similar questions
Physics,
22 hours ago
Math,
22 hours ago
Math,
1 day ago
India Languages,
8 months ago
English,
8 months ago