A certain genetic condition affects 5% of the population in a city of 10,000. Suppose there...

A certain genetic condition affects 5% of the population in a city of 10,000. Suppose there...

A certain genetic condition affects 5% of the population in a city of 10,000. Suppose there is a test for the condition that has an error rate of 1% (i.e., 1% false negatives and 1% false positives). Consider the values that would complete the table below.       Has condition       Does not have condition       Totals Test positive Test negative Totals What is the probability (as a percentage) that a person does not have the condition if he or she...

Suppose 1% of a given population have a certain genetic defect. For a new gene test,...

Suppose 1% of a given population have a certain genetic defect. For a new gene test, it gives a positive result with 90% probability when an individual does have the genetic defect, and it gives a positive result with 9.6% probability when an individual does NOT have the genetic defect. a. If a person gets a positive test result, what is the probability that he/she actually has the genetic defect? If a person gets a negative test result, what is...

Type I and Type II Errors The information for a particular area and radon testing is...

Type I and Type II Errors The information for a particular area and radon testing is as follows: 3 of 100 homes have radon gas problems A test for radon gas is 85% accurate The test is performed in 10,000 homes in this area a. Using the table below, create a matrix similar to the one in the Type I-Type II error notes. Label the cells as true positives, false positives, false negatives, true negatives and Type I and Type...

Two percent of the population has a certain condition for which there are two diagnostic tests....

Two percent of the population has a certain condition for which there are two diagnostic tests. Test A, which costs $1 per person, gives positive results for 80% of persons with the condition and for 5% of the persons without the condition. Test B, which costs $100 per person, gives positive results for all persons with the condition and negative results for all persons without it. (a) Suppose that Test B is given to 150 persons, at a cost of...

A certain deadly disease occurs in 1 percent of the population. A blood test for this...

A certain deadly disease occurs in 1 percent of the population. A blood test for this disease has a 2 percent false positive rate, and a 5 percent false negative rate (i.e., 2 percent of those not having the disease test positive, and 5 percent of those having the disease test negative). Suppose you want to put your mind at ease and take the blood test. a) If you have the disease, what is the probability you would correctly get...

One percent of all individuals in a certain population are carriers of a particular disease. A...

One percent of all individuals in a certain population are carriers of a particular disease. A diagnostic test for this disease has a 93% detection rate for carriers and a 2% false positive rate. Suppose that an individual is tested. What is the specificity of the test? What is the probability that an individual who tests negative does not carry the disease?

Suppose that a certain disease is present in 10% of the population, and that there is...

Suppose that a certain disease is present in 10% of the population, and that there is a screening test designed to detect this disease if present. The test does not always work perfectly. Sometimes the test is negative when the disease is present, and sometimes it is positive when the disease is absent. The following table shows the proportion of times that the test produces various results. Test Is Positive (P) Test Is Negative (N) Disease Present (D) 0.06 0.04...

11. Virus: In a city with a population of 10,000, 100 are infected with a novel...

11. Virus: In a city with a population of 10,000, 100 are infected with a novel virus; the other 9,900 are not. The government has moved quickly to develop a test that is meant to detect whether the virus is present, but it is not perfect: If a person genuinely has the virus, it is able to properly detect its presence 96% of the time. If a person genuinely does not have the virus, the test will mistakenly conclude its...

Conditional Probability Activity 1: CHC Student Survey Suppose a survey of 100 randomly selected CHC students...

Conditional Probability Activity 1: CHC Student Survey Suppose a survey of 100 randomly selected CHC students resulted in a sample of 60 male and 40 female students. Of the males, 2/3 graduated from a high school in Philadelphia, while the remainder had high school diplomas from out-of-the-city. Of the females, 3/4 were from Philadelphia high schools. This information is represented in the following contingency table: Phila. HS Out-of-City Totals Male 40 20 60 Female 30 10 40 Totals 70 30...

Suppose you live in a city where 10% of the population has had Coronavirus. There is...

Suppose you live in a city where 10% of the population has had Coronavirus. There is an antibody test that screens to see whether you have had the disease. Like all medical tests, it is not perfect; the sensitivity is 93.8% and the specificity is 95.6%. [These are real figures for a particular test.] These numbers refer to the true positive and true negative rate, respectively; that is, sensitivity is P(positive test | had disease) and specificity is P(negative test...