The Canonical Roulette

Roulette Bernoulli Experiment Games

In each trial, we have: Pr (success) = p; and Pr (failure) = 1 - p. Example 1 One roll of a Roulette wheel is a Bernoulli trial, where landing on red is a success and landing on green or black is a failure. Example 2 In a coin tossing game with one toss of a coin getting 'a head' might be a success and getting 'a tail' or 'not getting a head. Roulette Bernoulli Experiment, casino royal gmbh freiburg im breisgau, yankee doodle slot canyon utah, free slots three kings. A lot of different parts make up a good casino site, and there’s even more to get right for a Roulette Bernoulli Experiment great one. Some of the things we look for include functionality, game selection, live casino options, a reliable customer service, bonuses, availability and trustworthiness. Bernoulli Experiment with n Trials Here are the rules for a Bernoulli experiment. 1.The experiment is repeated a xed number of times (n times). 2.Each trial has only two possible outcomes, success' and failure'. The possible outcomes are exactly the same for each trial. 3.The probability of success remains the same for each trial. An experiment consists of ipping a coin 4 times and observing the sequence of heads and tails. The random variable Xis the number of heads in the observed sequence. Last time we found the following probability distribution for X: X P(X) 0 1/16 1 4/16 2 6/16 3 4/16 4 1/16 We saw above that the expected value for this random variable is E(X) = 2.

David Little
Mathematics Department Penn State University Eberly College of Science University Park, PA 16802	Office: 403 McAllister Phone: (814) 865-3329 Fax: (814) 865-3735 e-mail:dlittle@psu.edu

Canonical Roulette

• Spin - spins the wheel; once the wheel stops spinning, a ball is released from the left margin of the Distribution Function graph according to the value of the Canonical Roulette. The ball travels horizontally until hitting the graph of the Distribution Function, at which point it falls down vertically onto the histogram.
• Random - equivalent to 'Spin', however you don't have to wait for the Canonical Roulette to stop spinning.

Controls

• Start/Stop - begin/end collecting data at a very high rate.
• Clear Data - removes all data currently displayed in the histogram.
• Number of Bins - number of bins used to draw a histogram of the collected data.

Distribution Function
Choose from among several Discrete/Continuous Distributions (see below). Once a distribution has been selected, the corresponding graph will be displayed. This graph is used to create data in the following manner. First, the Canonical Roulette is used to create a random real number between 0 and 1 with uniform distribution. Second, a ball is released along the left boundary of the graph of the Distribution Function. The height of the ball (as a proportional of the height of the left boundary) is given by the outcome of the Canonical Roulette. The ball then travels horizontally to the right until it comes in contact with the graph of the Distribution Function, at which point it falls straight down onto the histogram.

Probability Function
Choose from among several Discrete/Continuous Probability Functions (see below). Once a probability function has been selected, the corresponding graph will be displayed. The graph can be used to compare the histogram of the actual data collected with the theoretical values predicted by the probability function.

Roulette Bernoulli Experiment Simulation

Discrete Distributions

• Binomial - the number of successes out of n independent trials of a Bernoulli experiment, where p is the probability of success on each trial.
• Geometric - the number of trials of a Bernoulli experiment before the first success, where p is the probability of success on each trial.
• Hypergeometric - the number of red balls drawn from an urn containing r red balls and b blue balls. The balls are drawn from the urn n at a time without replacement.
• Negative Binomial - the number of trials (in excess of r) of a Bernoulli experiment until the rth success, where p is the probability of success on each trial.
• Poisson - the number of occurrences of an event over a fixed time interval, where lambda is the average rate at which the event occurs.

Continuous Distributions

Roulette Bernoulli Experiment Definition

• Arcsine -
• Beta -
• Cauchy -
• Chi squared -
• Exponential -
• Gamma -
• Log Normal -
• Maxwell -
• Normal -
• Pareto - used to model random variables that take on small values with high probability and large values with low probability. For example, the idea that 80% of the wealth is owned by merely 20% of a population implies that the vast majority of the population has a small personal wealth.
• Rayleigh -
• Triangular -
• Uniform -

© 2005 David P. Little

Roulette Bernoulli Experiments