You are not currently logged in. Please create an account or log in to view the full course.
Direct Proofs Using Fibonacci Numbers
- About
- Transcript
- Cite
Proofs: Number Theory and Sequences
In this course, Professor Shabnam Akhtari (University of Oregon) explores proofs, specifically those motivated by number theory and sequences. In the first mini-lecture, we introduce the Fibonacci numbers and use them to motivate examples of direct proofs. In the second mini-lecture, we introduce proof by contradiction and use this method to prove properties about prime numbers, including Euclid’s Theorem, which states that there are infinitely many prime numbers. In the third mini-lecture, we discuss prime factorisation notation using exponents and work through two related proofs. In the fourth mini-lecture, we consider direct proofs involving arithmetic and geometric sequences.
Direct Proofs Using Fibonacci Numbers
In this mini-lecture, we use the Fibonacci numbers to motivate examples of direct proofs. As we move though this mini-lecture, we consider: (i) the definition of Fibonacci numbers, Fn = Fn-1 + Fn-2, which can be used to create a sequence of numbers; (ii) mathematical patterns in the Fibonacci sequence, such as every third number being even while all others are odd; (iii) a direct proof of a property of Fibonacci numbers, which states that Fn+1 = 2Fn-1 + Fn-2; and (iv) how this property, Fn+1 = 2Fn-1 + Fn-2, can also help us deduce which terms are even and which are odd in the Fibonacci sequence.
Cite this Lecture
APA style
Akhtari, S. (2022, August 30). Proofs: Number Theory and Sequences - Direct Proofs Using Fibonacci Numbers [Video]. MASSOLIT. https://massolit.io/courses/proofs-number-theory-and-sequences/direct-proofs-using-arithmetic-and-geometric-sequences?autoplay=true
MLA style
Akhtari, S. "Proofs: Number Theory and Sequences – Direct Proofs Using Fibonacci Numbers." MASSOLIT, uploaded by MASSOLIT, 30 Aug 2022, https://massolit.io/courses/proofs-number-theory-and-sequences/direct-proofs-using-arithmetic-and-geometric-sequences?autoplay=true