If you wanted to run a simulation for something with a 25% (1 in 4) chance...

If you wanted to run a simulation for something with a 25% (1 in 4) chance...

If you wanted to run a simulation for something with a 25% (1 in 4) chance of success, then you could generate random numbers 1 – 4, and arbitrarily choose one of the numbers to represent a “success.” You could choose “1” to be a “success,” for instance. a. Suppose you want to simulate something with 6.25% (1 in 16) chance of success. The most efficient way to simulate that with whole numbers would be to generate the numbers from...

Conducting a Simulation For example, say we want to simulate the probability of getting “heads” exactly...

Conducting a Simulation For example, say we want to simulate the probability of getting “heads” exactly 4 times in 10 flips of a fair coin. One way to generate a flip of the coin is to create a vector in R with all of the possible outcomes and then randomly select one of those outcomes. The sample function takes a vector of elements (in this case heads or tails) and chooses a random sample of size elements. coin <- c("heads","tails")...

Q1d08A.) Edward Shack is conducting a simulation of a serial production line for Lowliner Foods in...

Q1d08A.) Edward Shack is conducting a simulation of a serial production line for Lowliner Foods in St John’s, NL. The line processes fresh fish into frozen fish fingers. The line operates on three shift basis, 7.5 hours per shift, with a half-hour between shifts. Machines are idled between the shifts. a.) Mr. Shack is very interested in determining the effect of unscheduled downtime of the flash freezing unit on shift output. Eddie has implemented a data collection procedure that will...

If you run summary() command on a result of linear model fitting returned by lm(), you...

If you run summary() command on a result of linear model fitting returned by lm(), you will see a column Pr(>t). You could guess that it is a result of some t-test. How does it apply here? So far we have seen t-tests in the settings of testing sample locations. The ingredients were: 1) null hypothesis: in earlier cases we looked into the null that stated that two samples came from the distribution(s) with the same mean(s); 2) test statistic:...

PROJECT B 1. Flip a coin 120 times. In order to be organized, please record the...

PROJECT B 1. Flip a coin 120 times. In order to be organized, please record the results of this experiment in 5 rows, with 24 flips per row. For example, the first row may be HTHTTTHTTHTTHHHTTHTHHHHT If you do not desire to flip a coin manually, STATDISK can be used to simulate the process. To use STATDISK, go to “Data” at the top of the STATDISK window, and then choose “Coins Generator”. The “Coin Toss Simulator” window will appear. Then...

Problem 16-05 (Algorithmic) To generate leads for new business, Gustin Investment Services offers free financial planning...

Problem 16-05 (Algorithmic) To generate leads for new business, Gustin Investment Services offers free financial planning seminars at major hotels in Southwest Florida. Gustin conducts seminars for groups of 25 individuals. Each seminar costs Gustin $3600, and the average first-year commission for each new account opened is $5500. Gustin estimates that for each individual attending the seminar, there is a 0.01 probability that he/she will open a new account. Determine the equation for computing Gustin’s profit per seminar, given values...

To generate leads for new business, Gustin Investment Services offers free financial planning seminars at major...

To generate leads for new business, Gustin Investment Services offers free financial planning seminars at major hotels in Southwest Florida. Gustin conducts seminars for groups of 25 individuals. Each seminar costs Gustin $3000, and the average first-year commission for each new account opened is $5300. Gustin estimates that for each individual attending the seminar, there is a 0.01 probability that he/she will open a new account. Determine the equation for computing Gustin’s profit per seminar, given values of the relevant...

A few months ago, the upper management at a large corporation decided they wanted to make...

A few months ago, the upper management at a large corporation decided they wanted to make major changes in the organization. Leadership is concerned that employees may be resistant to the change, and they want to find out if there is a change management method that would help employees accept change more effectively and keep employee satisfaction high. Two methods they have considered are the ADKAR Framework and the Prosci Change Management Methodology. The company wants to implement a small...

QUESTION 4 (25 marks) Diversified Industries is a large conglomerate that is continually in the market...

QUESTION 4 Diversified Industries is a large conglomerate that is continually in the market for new acquisitions. The company has grown rapidly over the last ten years through buyouts of medium-size companies. Diversified does not limit itself to companies in any one industry, but looks for companies with a sound financial base and the ability to stand on their own financially. The CEO of the company recently told his executive team that “I want to impress two points on all...

1) When we fit a model to data, which is typically larger? a) Test Error b)...

1) When we fit a model to data, which is typically larger? a) Test Error b) Training Error 2) What are reasons why test error could be LESS than training error? (Pick all that applies) a) By chance, the test set has easier cases than the training set. b) The model is highly complex, so training error systematically overestimates test error c) The model is not very complex, so training error systematically overestimates test error 3) Suppose we want to...