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4. Random Variables
A random variable is a way of recording a quantitative variable of a random experiment.
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4. Random Variables
A random variable is a way of recording a quantitative variable of a random experiment.
In particular Chapter 4 talks about discrete random variables.
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4. Random Variables
A random variable is a way of recording a quantitative variable of a random experiment.
In particular Chapter 4 talks about discrete random variables.
If a random variable has a particular distribution (such as a binomial distribution) then our work becomes easier. We use formulas and tables.
![Page 4: 4. Random Variables A random variable is a way of recording a quantitative variable of a random experiment.](https://reader030.fdocuments.net/reader030/viewer/2022032707/56649e235503460f94b10892/html5/thumbnails/4.jpg)
5. Continuous Random Variables
A random variable is a way of recording a quantitative variable of a random experiment.
In particular Chapter 4 talks about discrete random variables.
If a random variable has a particular distribution (such as a binomial distribution) then our work becomes easier. We use formulas and tables.
![Page 5: 4. Random Variables A random variable is a way of recording a quantitative variable of a random experiment.](https://reader030.fdocuments.net/reader030/viewer/2022032707/56649e235503460f94b10892/html5/thumbnails/5.jpg)
5. Continuous Random Variables
A random variable where X can take on a range of values, not just particular ones.
Examples:
Heights
Distance a golfer hits the ball with their driver
Time to run 100 meters
Electricity usage of a home.
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Continuous probability distribution functions
For a discrete random variable, probabilities are given as a table of values, and the distribution can be graphed as a bar graph.
For a continuous random variable, probabilities are specified by a continuous function. The graph of the probability distribution function is a curve.
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Copyright © 2013 Pearson Education, Inc.. All rights reserved.
Figure 5.1 A probability f(x) for a continuous random variable x
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Copyright © 2013 Pearson Education, Inc.. All rights reserved.
Definition
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Copyright © 2013 Pearson Education, Inc.. All rights reserved.
Figure 5.2 Density Function for Friction Coefficient, Example 5.1
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Copyright © 2013 Pearson Education, Inc.. All rights reserved.
Find probability friction is less than 10.
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Copyright © 2013 Pearson Education, Inc.. All rights reserved.
Find probability friction is less than 10.Solution:Probabiity = area of shaded
triangle = (1/2)(5)(0.2)=0.5
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Uniform Distribution
A Uniform Distribution has equally likely values over the range of possible outcomes.
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Uniform Distribution
A Uniform Distribution has equally likely values over the range of possible outcomes.
A graph of the uniform probability distribution is a rectangle with area equal to 1.
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Example The figure below depicts the probability distribution for
temperatures in a manufacturing process. The temperatures are controlled so that they range between 0 and 5 degrees Celsius, and every possible temperature is equally likely.
x
P(x)
Temperature (degrees Celsius)
0 1 2 3 4 5
0.2
0
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Example Note that the total area under the
“curve” is 1.
x
P(x)
Temperature (degrees Celsius)
0 1 2 3 4 5
0.2
0
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Example
What is the Probability that the temperature is exactly 4 degrees?
x
P(x)
Temperature (degrees Celsius)
0 1 2 3 4 5
0.2
0
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Example
What is the Probability that the temperature is exactly 4 degrees?
Answer: 0
x
P(x)
Temperature (degrees Celsius)
0 1 2 3 4 5
0.2
0
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Since we have a continuous random variable there are an infinite number of possible outcomes between 0 and 5, the probability of one number out of an infinite set of numbers is 0.
Explanation
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Example
What is the probability the temperature is between 10C and 40C?
x
P(x)
Temperature (degrees Celsius)
0 1 2 3 4 5
0.2
0
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Example
What is the probability the temperature is between 10C and 40C?
x
P(x)
Temperature (degrees Celsius)
0 1 2 3 4 5
0.2
0
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What is the probability the temperature is between 10C and 40C?
We know that the total area of the rectangle is 1, and we can see that the part of the rectangle between 1 and 4 is 3/5 of the total, so P(1 x 4) = 3/5*(1) = 0.6.
x
P(x)
Temperature (degrees Celsius)
0 1 2 3 4 5
0.2
0
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Review: Probabilities and Area For a density curve depicting the
probability distribution of a continuous random variable, – the total area under the curve is 1, – there is a direct correspondence between area
and probability.– Only the probability of an event occurring in
some interval can be evaluated. – The probability that a continuous random
variable takes on any particular value is zero.
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General Uniform Distribution
A Uniform Distribution has equally likely values over the range of possible outcomes, say c to d.
12Deviation Standard
2Mean
1 :functiondensity theofHeight
cd
dccd
f(x)
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Normal Distributions
This is the most common observed distribution of continuous random variables. A normal distribution corresponds to bell-shaped curves.
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Normal Distributions
This is the most common observed distribution of continuous random variables. A normal distribution corresponds to bell-shaped curves.
2
/ 22 2)(
xe
y
Reminder: Mu is the mean, sigma is the standard deviation.
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Examples
The following are examples of normally distributed everyday data.
– Grades on a test.– How many chips are in a small bag of potatoe
chips.– The measurements of distance between two
points.– The heights of students in this class.
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Normal Distributions
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Normal Distributions
Shape of this curve is determined by µ and σ – µ it’s centered, σ is how far it’s spread out.
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Standard Normal Distribution
The Standard Normal Distribution is a normal probability distribution that has a mean of 0 and a standard deviation of 1.
In this way the formula giving the heights of the normal curve is simplified greatly.
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Z-score
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Standard Normal Probabilities
P(0 z 1) represents the probability that z takes on values between 0 and 1, which is represented by the area under the curve between 0 and 1.
P(0 z 1) = 0.3413
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P(0 z 1) = 0.341
Revelation!
Since the mean is 0 and the standard deviation is 1, this tells us that the probability that z is within one standard deviation of the mean (either below or above) is (2)(0.341)= 0.682.
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P(0 z 1) = 0.341
Revelation!
Since the mean is 0 and the standard deviation is 1, this tells us that the probabiity that z is within one standard deviation of the mean (either below or above) is (2)(0.341)= 0.682.
Agrees with Empirical Rule: 68% of data lies within one standard deviation of the mean
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Finding Probabilities when given z-scores.
For a given z-score, the probability can be found in a table in the back of the text (Table IV), also see inside front cover.
Note: The table only gives the areas under the curve to the right between 0 and z. To find other intervals requires some tricks.
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Table 5.1
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Find probability z is between -1.33 and +1.33.
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Copyright © 2013 Pearson Education, Inc.. All rights reserved.
Want probability z is between -1.33 and +1.33.Solution: Locate 1.33 in the row labeled 1.3 and the column labeled .03. By symmetry, ans = 2(0.4082) = .8164
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Find probability z exceeds 1.96 in absolute value.
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Areas under the standard normal curve for z exceeding 1.96 in absolute value
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Areas under the standard normal curve for z exceeding 1.96 in absolute value
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Revelation!
It follows that the area of the un-shaded region is 0.95. Agrees with Empirical Rule which states that,
for data sets having a mound shaped distribution, 95% of the
values lie within approximately 2 standard deviations of the mean
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Keys to success
Learn the standard normal table and how to use it.
We will be using these tables through out the course.