integers and introduction to algebra
integers and introduction to algebra

Number Theory - University of Hawaii Mathematics
Number Theory - University of Hawaii Mathematics

Odd Crossing Number and Crossing Number Are
Odd Crossing Number and Crossing Number Are

fraction - SCHOOLinSITES
fraction - SCHOOLinSITES

Chapter 3 Integers
Chapter 3 Integers

32(2)
32(2)

On perfect numbers which are ratios of two Fibonacci numbers∗
On perfect numbers which are ratios of two Fibonacci numbers∗

Introduction - csns - California State University, Los Angeles
Introduction - csns - California State University, Los Angeles

QUIVER MUTATIONS 1. Introduction
QUIVER MUTATIONS 1. Introduction

CHAPTER 5: EQUIVALENCE RELATIONS AND EQUIVALENCE
CHAPTER 5: EQUIVALENCE RELATIONS AND EQUIVALENCE

SOLUTIONS TO HOMEWORK 2
SOLUTIONS TO HOMEWORK 2

Limit of a Sequence
Limit of a Sequence

2123 The Quadratic formula (Mod p) - ACM
2123 The Quadratic formula (Mod p) - ACM

CSCI 190 Additional Final Practice Problems Solutions
CSCI 190 Additional Final Practice Problems Solutions

On repdigits as product of consecutive Fibonacci
On repdigits as product of consecutive Fibonacci

Recurrence relations
Recurrence relations

Comprehensive Guide - Redding School District
Comprehensive Guide - Redding School District

The Fundamentals: Algorithms, the Integers, and Matrices
The Fundamentals: Algorithms, the Integers, and Matrices

arithmetic sequence
arithmetic sequence

lecture notes on mathematical induction
lecture notes on mathematical induction

A Combinatorial Miscellany
A Combinatorial Miscellany

New Generalized Cyclotomy and Its Applications
New Generalized Cyclotomy and Its Applications

SQUare FOrm Factorization - American Mathematical Society
SQUare FOrm Factorization - American Mathematical Society

The secret life of 1/n: A journey far beyond the decimal point
The secret life of 1/n: A journey far beyond the decimal point

CDT Materials Class – IV Subject – Mathematics
CDT Materials Class – IV Subject – Mathematics

Collatz conjecture



The Collatz conjecture is a conjecture in mathematics named after Lothar Collatz, who first proposed it in 1937. The conjecture is also known as the 3n + 1 conjecture, the Ulam conjecture (after Stanisław Ulam), Kakutani's problem (after Shizuo Kakutani), the Thwaites conjecture (after Sir Bryan Thwaites), Hasse's algorithm (after Helmut Hasse), or the Syracuse problem; the sequence of numbers involved is referred to as the hailstone sequence or hailstone numbers (because the values are usually subject to multiple descents and ascents like hailstones in a cloud), or as wondrous numbers.Take any natural number n. If n is even, divide it by 2 to get n / 2. If n is odd, multiply it by 3 and add 1 to obtain 3n + 1. Repeat the process (which has been called ""Half Or Triple Plus One"", or HOTPO) indefinitely. The conjecture is that no matter what number you start with, you will always eventually reach 1. The property has also been called oneness.Paul Erdős said about the Collatz conjecture: ""Mathematics may not be ready for such problems."" He also offered $500 for its solution.