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5 random variables

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Zahida Pervaiz
Zahida Pervaiz
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1Slide Random Variables Definition & Example  Definition: A random variable is a quantity resulting from a random experiment that, by chance, can assume different values.  Example: Consider a random experiment in which a coin is tossed three times. Let X be the number of heads. Let H represent the outcome of a head and T the outcome of a tail.
2Slide  The sample space for such an experiment will be: TTT, TTH, THT, THH, HTT, HTH, HHT, HHH.  Thus the possible values of X (number of heads) are X = 0, 1, 2, 3.  This association is shown in the next slide.  Note: In this experiment, there are 8 possible outcomes in the sample space. Since they are all equally likely to occur, each outcome has a probability of 1/8 of occurring. Example (Continued)
3Slide TTT TTH THT THH HTT HTH HHT HHH 0 1 1 2 1 2 2 3 Sample Space X Example (Continued)
4Slide  The outcome of zero heads occurred only once.  The outcome of one head occurred three times.  The outcome of two heads occurred three times.  The outcome of three heads occurred only once.  From the definition of a random variable, X as defined in this experiment, is a random variable.  X values are determined by the outcomes of the experiment. Example (Continued)
5Slide Let x = number of TVs sold at the store in one day, where x can take on 5 values (0, 1, 2, 3, 4) Example: JSL Appliances  Discrete random variable with a finite number of values
6Slide Let x = number of customers arriving in one day, where x can take on the values 0, 1, 2, . . . Example: JSL Appliances  Discrete random variable with an infinite sequence of values We can count the customers arriving, but there is no finite upper limit on the number that might arrive.
7Slide Probability Distribution: Definition  Definition: A probability distribution is a listing of all the outcomes of an experiment and their associated probabilities.  The probability distribution for the random variable X (number of heads) in tossing a coin three times is shown next.
8Slide Probability Distribution for Three Tosses of a Coin
9Slide RANDOM VARIABLE .10 .20 .30 .40 0 1 2 3 4  Random Variables  Discrete Probability Distributions
10Slide Discrete Random Variable Examples Experiment Random Variable Possible Values Make 100 sales calls # Sales 0, 1, 2, ..., 100 Inspect 70 radios # Defective 0, 1, 2, ..., 70 Answer 33 questions # Correct 0, 1, 2, ..., 33 Count cars at toll between 11:00 & 1:00 # Cars arriving 0, 1, 2, ..., 
11Slide The probability distribution for a random variable describes how probabilities are distributed over the values of the random variable. We can describe a discrete probability distribution with a table, graph, or equation. Discrete Probability Distributions
12Slide The probability distribution is defined by a probability function, denoted by f(x), which provides the probability for each value of the random variable. The required conditions for a discrete probability function are: Discrete Probability Distributions f(x) > 0 f(x) = 1 P(X) ≥ 0 ΣP(X) = 1
13Slide  a tabular representation of the probability distribution for TV sales was developed.  Using past data on TV sales, … Number Units Sold of Days 0 80 1 50 2 40 3 10 4 20 200 x f(x) 0 .40 1 .25 2 .20 3 .05 4 .10 1.00 80/200 Discrete Probability Distributions Example
14Slide .10 .20 .30 .40 .50 0 1 2 3 4 Values of Random Variable x (TV sales) Probability Discrete Probability Distributions  Graphical Representation of Probability Distribution
15Slide Discrete Probability Distributions  As we said, the probability distribution of a discrete random variable is a table, graph, or formula that gives the probability associated with each possible value that the variable can assume. Example : Number of Radios Sold at Sound City in a Week x, Radios p(x), Probability 0 p(0) = 0.03 1 p(1) = 0.20 2 p(2) = 0.50 3 p(3) = 0.20 4 p(4) = 0.05 5 p(5) = 0.02
16Slide Expected Value of a Discrete Random Variable  The mean or expected value of a discrete random variable is:  xAll X xxp )( Example: Expected Number of Radios Sold in a Week x, Radios p(x), Probability x p(x) 0 p(0) = 0.03 0(0.03) = 0.00 1 p(1) = 0.20 1(0.20) = 0.20 2 p(2) = 0.50 2(0.50) = 1.00 3 p(3) = 0.20 3(0.20) = 0.60 4 p(4) = 0.05 4(0.05) = 0.20 5 p(5) = 0.02 5(0.02) = 0.10 1.00 2.10
17Slide Variance and Standard Deviation  The variance of a discrete random variable is:   xAll XX xpx )()( 22  2 XX    The standard deviation is the square root of the variance.
18Slide Example: Variance and Standard Deviation of the Number of Radios Sold in a Week x, Radios p(x), Probability (x - X)2 p(x) 0 p(0) = 0.03 (0 – 2.1)2 (0.03) = 0.1323 1 p(1) = 0.20 (1 – 2.1)2 (0.20) = 0.2420 2 p(2) = 0.50 (2 – 2.1)2 (0.50) = 0.0050 3 p(3) = 0.20 (3 – 2.1)2 (0.20) = 0.1620 4 p(4) = 0.05 (4 – 2.1)2 (0.05) = 0.1805 5 p(5) = 0.02 (5 – 2.1)2 (0.02) = 0.1682 1.00 0.8900 89.02 X Variance 9434.089.0 X Standard deviation Variance and Standard Deviation µx = 2.10
19Slide Expected Value and Variance (Summary) The expected value, or mean, of a random variable is a measure of its central location. The variance summarizes the variability in the values of a random variable. The standard deviation, , is defined as the positive square root of the variance. Var(x) =  2 = (x - )2f(x) E(x) =  = xf(x)

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5 random variables

  • 1. 1Slide Random Variables Definition & Example  Definition: A random variable is a quantity resulting from a random experiment that, by chance, can assume different values.  Example: Consider a random experiment in which a coin is tossed three times. Let X be the number of heads. Let H represent the outcome of a head and T the outcome of a tail.
  • 2. 2Slide  The sample space for such an experiment will be: TTT, TTH, THT, THH, HTT, HTH, HHT, HHH.  Thus the possible values of X (number of heads) are X = 0, 1, 2, 3.  This association is shown in the next slide.  Note: In this experiment, there are 8 possible outcomes in the sample space. Since they are all equally likely to occur, each outcome has a probability of 1/8 of occurring. Example (Continued)
  • 4. 4Slide  The outcome of zero heads occurred only once.  The outcome of one head occurred three times.  The outcome of two heads occurred three times.  The outcome of three heads occurred only once.  From the definition of a random variable, X as defined in this experiment, is a random variable.  X values are determined by the outcomes of the experiment. Example (Continued)
  • 5. 5Slide Let x = number of TVs sold at the store in one day, where x can take on 5 values (0, 1, 2, 3, 4) Example: JSL Appliances  Discrete random variable with a finite number of values
  • 6. 6Slide Let x = number of customers arriving in one day, where x can take on the values 0, 1, 2, . . . Example: JSL Appliances  Discrete random variable with an infinite sequence of values We can count the customers arriving, but there is no finite upper limit on the number that might arrive.
  • 7. 7Slide Probability Distribution: Definition  Definition: A probability distribution is a listing of all the outcomes of an experiment and their associated probabilities.  The probability distribution for the random variable X (number of heads) in tossing a coin three times is shown next.
  • 8. 8Slide Probability Distribution for Three Tosses of a Coin
  • 9. 9Slide RANDOM VARIABLE .10 .20 .30 .40 0 1 2 3 4  Random Variables  Discrete Probability Distributions
  • 10. 10Slide Discrete Random Variable Examples Experiment Random Variable Possible Values Make 100 sales calls # Sales 0, 1, 2, ..., 100 Inspect 70 radios # Defective 0, 1, 2, ..., 70 Answer 33 questions # Correct 0, 1, 2, ..., 33 Count cars at toll between 11:00 & 1:00 # Cars arriving 0, 1, 2, ..., 
  • 11. 11Slide The probability distribution for a random variable describes how probabilities are distributed over the values of the random variable. We can describe a discrete probability distribution with a table, graph, or equation. Discrete Probability Distributions
  • 12. 12Slide The probability distribution is defined by a probability function, denoted by f(x), which provides the probability for each value of the random variable. The required conditions for a discrete probability function are: Discrete Probability Distributions f(x) > 0 f(x) = 1 P(X) ≥ 0 ΣP(X) = 1
  • 13. 13Slide  a tabular representation of the probability distribution for TV sales was developed.  Using past data on TV sales, … Number Units Sold of Days 0 80 1 50 2 40 3 10 4 20 200 x f(x) 0 .40 1 .25 2 .20 3 .05 4 .10 1.00 80/200 Discrete Probability Distributions Example
  • 14. 14Slide .10 .20 .30 .40 .50 0 1 2 3 4 Values of Random Variable x (TV sales) Probability Discrete Probability Distributions  Graphical Representation of Probability Distribution
  • 15. 15Slide Discrete Probability Distributions  As we said, the probability distribution of a discrete random variable is a table, graph, or formula that gives the probability associated with each possible value that the variable can assume. Example : Number of Radios Sold at Sound City in a Week x, Radios p(x), Probability 0 p(0) = 0.03 1 p(1) = 0.20 2 p(2) = 0.50 3 p(3) = 0.20 4 p(4) = 0.05 5 p(5) = 0.02
  • 16. 16Slide Expected Value of a Discrete Random Variable  The mean or expected value of a discrete random variable is:  xAll X xxp )( Example: Expected Number of Radios Sold in a Week x, Radios p(x), Probability x p(x) 0 p(0) = 0.03 0(0.03) = 0.00 1 p(1) = 0.20 1(0.20) = 0.20 2 p(2) = 0.50 2(0.50) = 1.00 3 p(3) = 0.20 3(0.20) = 0.60 4 p(4) = 0.05 4(0.05) = 0.20 5 p(5) = 0.02 5(0.02) = 0.10 1.00 2.10
  • 17. 17Slide Variance and Standard Deviation  The variance of a discrete random variable is:   xAll XX xpx )()( 22  2 XX    The standard deviation is the square root of the variance.
  • 18. 18Slide Example: Variance and Standard Deviation of the Number of Radios Sold in a Week x, Radios p(x), Probability (x - X)2 p(x) 0 p(0) = 0.03 (0 – 2.1)2 (0.03) = 0.1323 1 p(1) = 0.20 (1 – 2.1)2 (0.20) = 0.2420 2 p(2) = 0.50 (2 – 2.1)2 (0.50) = 0.0050 3 p(3) = 0.20 (3 – 2.1)2 (0.20) = 0.1620 4 p(4) = 0.05 (4 – 2.1)2 (0.05) = 0.1805 5 p(5) = 0.02 (5 – 2.1)2 (0.02) = 0.1682 1.00 0.8900 89.02 X Variance 9434.089.0 X Standard deviation Variance and Standard Deviation µx = 2.10
  • 19. 19Slide Expected Value and Variance (Summary) The expected value, or mean, of a random variable is a measure of its central location. The variance summarizes the variability in the values of a random variable. The standard deviation, , is defined as the positive square root of the variance. Var(x) =  2 = (x - )2f(x) E(x) =  = xf(x)