For a homework assignment in a statistics course, half the class was asked to record the actual results of 100 coin tosses while the other half was asked to fake the same results by writing down what they thought might be a reasonable random sequence of heads and tails. With only a quick glance at a student's homework, the professor was able to determine whether the statistics were real or faked, with 90% accuracy! The giveaway clue was the occurrence of runs of 5, 6 or even 7 consecutive heads or tails. These are likely to occur in actual sequences, contrary to some naive intuitive notions about randomness. This feature of random distributions is fairly simple to deduce. Since the probability of heads in a single coin toss is , the probabi...
In this student project it was to be experimentally figured out how fair a fair coin behaves. To ac...
This Mathematica demonstration showcases the law of large numbers, a key theorem in probability theo...
We consider evidence relevant to whether a (possibly idealized) physical process is produc-ing its o...
For a homework assignment in a statistics course, half the class was asked to record the actual resu...
Consider a game in which a fair coin is tossed repeatedly. When the cumulative number of heads is gr...
Noções de Estatística.A simulation of the statistical properties of the outcome of tosses of many co...
What is the average number of coin tosses needed before a particular sequence of heads and tails fir...
Randomness is everywhere. Do you like to cook? Imagine you’re sauteeing some onions. You’d like each...
Everyone knows some of the basics of probability, perhaps enough to play cards. Beyond the introduct...
The existence of "Hot Hands" and "Streaks" in sports and gambling is hotly debated, but the...
This research continues the longstanding tradition of taking an interdisciplinary approach to studie...
How many consecutive heads can we observe in a run of coin tossing of length n? Although the problem...
To simulate chance occurrences, a computer can't literally toss a coin or roll a die. Instead, ...
Abstract: 1000 fair causally isolated coins will be independently flipped tomorrow morning and you k...
Distinguishing between random and non-random data is important for inductive reasoning. Prior resear...
In this student project it was to be experimentally figured out how fair a fair coin behaves. To ac...
This Mathematica demonstration showcases the law of large numbers, a key theorem in probability theo...
We consider evidence relevant to whether a (possibly idealized) physical process is produc-ing its o...
For a homework assignment in a statistics course, half the class was asked to record the actual resu...
Consider a game in which a fair coin is tossed repeatedly. When the cumulative number of heads is gr...
Noções de Estatística.A simulation of the statistical properties of the outcome of tosses of many co...
What is the average number of coin tosses needed before a particular sequence of heads and tails fir...
Randomness is everywhere. Do you like to cook? Imagine you’re sauteeing some onions. You’d like each...
Everyone knows some of the basics of probability, perhaps enough to play cards. Beyond the introduct...
The existence of "Hot Hands" and "Streaks" in sports and gambling is hotly debated, but the...
This research continues the longstanding tradition of taking an interdisciplinary approach to studie...
How many consecutive heads can we observe in a run of coin tossing of length n? Although the problem...
To simulate chance occurrences, a computer can't literally toss a coin or roll a die. Instead, ...
Abstract: 1000 fair causally isolated coins will be independently flipped tomorrow morning and you k...
Distinguishing between random and non-random data is important for inductive reasoning. Prior resear...
In this student project it was to be experimentally figured out how fair a fair coin behaves. To ac...
This Mathematica demonstration showcases the law of large numbers, a key theorem in probability theo...
We consider evidence relevant to whether a (possibly idealized) physical process is produc-ing its o...