Probability histograms
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1 Percentiles For a given histogram, we fix a percentage and find the value for which that percentage of the observations is below such value. This is called the percentile. For example, we obtain the histogram of the family incomes in the US, according to the last census. The first percentile corresponds to the income such that 1% of the families make less than that amount. Q: The Math SAT score among the applicants to a certain university have an average of 535 and a SD of 100. Assuming that the scores follow the normal curve, find the 95th percentile of the score distribution. A: We need to find the number (score) such that 95% of the scores are below that number, according to the normal curve. So, if z is the 95th percentile, we need that the area under the curve corresponding to (, z) be equal to 95%. This is equivalent to finding z, such that the interval ( z, z) has an area under the curve of 90%. Then, according to the normal table, z So students that are 1.65 standard units away from the average will be on the 95th percentile. This corresponds to 165 points above average, or 700 points.
2 Consider the box Probability histograms Probability histogram Then, the chances of obtaining a ticket with a 1 are 4/7, the chances of a 3 are 1/7 and the chances of a 4 are 2/7. We can display that information graphically in a probability histogram. Density
3 Each box is centered at a number and its area corresponds to the probability of that number. The sum of the areas of the boxes is equal to one. This is because the areas are associated with probabilities or chances. Probability histograms are used to represent chance.
4 Histograms based on sampled data are used to represent how the data are distributed over their range. Probability histograms correspond to the chances that a random variable take some specific values. 100 repetitions Density Density Density sum of two dice 1000 repetitions sum of two dice Probability histogram Empirical histograms based on the frequencies of observed outcomes of an experiment converge to the corresponding probability histograms, as can be seen by the example of rolling two dice sum of two dice
5 In the previous example consider taking the product of the two dice. 100 rolls The convergence is also true when considering the product of the two dice. In this case we notice that the probability histogram is much more irregular than the one obtained for the sum. Density Density Density Product of two dice rolls Product of two dice Probability histogram Product of two dice The regularity is a general feature related to the sum.
6 Consider the problem of tossing a fair coin a certain number of times n. We can obtain the probability histogram for each n. 10 tosses tosses tosses We observe that the probability histogram of the number of tails converges to a very regular curve as the number of tosses is increased This curve is a common probability density named Gaussian curve.
7 Using the normal approximation We can approximate the probability histogram of the sum of heads in a large number of coin tosses using the normal curve. Q: A coin is tossed 100 times, what is the probability of getting exactly 50 heads? A: We can look at the probability histogram for this case. We observe that the chances corresponding to 50 are equal to the area of the box that has a base from 49.5 to The area of this box is 7.96%. Q: What about an approximation using the normal curve? A: First step is to calculate the mean and standard deviation. Consider a box model where there is a zero for the tail and 1 for the head, 0 1.
8 Average of the Box: 1 2. SD of the Box: 1 2 When drawing a ticket from this box 100 times with replacement, the expected value of the sum of the draws is = 50 In general, the expected value of the sum of the draws is given by (number of draws) (average of box) The standard error of the sum of the draws is given by the square root law (number of draws) (SD of box) where SD of box stands for the standard deviation of the list of numbers in the box.
9 The standard error for the sum of the draws is given by = 5 Now we have to convert the base of the rectangle to standard units: = = 0.1 So the normal approximation consists of the area under the normal curve for the interval (-0.1,0.1). According to the table, this is equal to 7.965%. Q: What are the approximate chances of getting between 45 and 55 heads inclusive? A: The probability of getting between 45 and 55 heads is equal to the areas of the rectangles between 45 and 55 in the probability histogram. This is approximated by the area under the normal curve for the interval (44.5,55.5). In standard units this corresponds to the interval (-1.1,1.1), which has a probability of 72.87% according to the table.
10 Q: What are the approximate chances of getting between 45 and 55 heads exclusive? A: This time the probability is given by the areas of the rectangles between 46 and 54, which is approximately the area under the curve corresponding to the interval (45.5,54.5), this is the interval (-0.9,0.9) in standard units, which has a probability of 63.19%. Very often it is not specified if the end points are included or not. In that case we consider the approximation using the given interval. So, for the previous example, we would have (45,55) that is converted to (-1,1) in standard units and yields 68.27% probability.
11 When can we use the normal approximation? Consider the box the probability histogram for the tickets in the box is far from being normal. Nevertheless, if we consider the experiment of drawing tickets from the box and sum the results over and over again, then the probability histogram of the sum will be approximated by the normal curve.what if we consider the product of the tickets? In that case the probability histogram will not be approximated by a normal curve, no matter how many draws from the box we take
12 The Central Limit Theorem In general it is true that the probability histogram of the sum of draws from a box of tickets will be approximated by the normal curve. This is a mathematical fact that can be expressed and proved as a theorem. The Central Limit Theorem. When drawing at random with replacement from a box, the probability histogram for the sum will follow a normal curve, in the limit. This is even if the probability histogram of the contents of the box does not have a probability histogram that is approximately normal The reason why the CLT is used as an approximation for distributions of lists of numbers is that it often happens that the uncertainty in the data can be thought of as the sum of several sources of randomness.
13 Q: Four hundred draws will be made at random with replacement from the box Estimate the chance that the sum of the draws will be more than 1,500. A: The average in the box is 4 and the SD is about The expected value for the sum is = 1, 600 and the SE is Converting 1,500 to standard units we have 1, 500 1, = According to the normal curve, the chance of being above is about 99%.
14 Q: Estimate the chance that there will be fewer than 90 3 s. A: The number of 3 s is like the sum of 400 draws from the box 1, 3 0 s where the ticket marked as 1 corresponds to the 3. The average in such a box is 1/4 and the SD is about Thus the expected number of 3 s is 400 1/4 = 100 and the SE is = Converting 90 to standard units we have = According to the normal curve, the chance of being below is about 12%.
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