All Common Core: High School - Statistics and Probability Resources
Example Questions
Example Question #1 : Interpret Difference In Shape Of Data Distribution: Ccss.Math.Content.Hss Id.A.3
Choose the TRUE statement.
The absolute value of the mean of Set B is larger than the mean of Set A.
The two sets have the same standard deviation.
If one outlier is discarded from each set, the two sets have the same standard deviation.
The two sets have the same range.
The median of Set A does not change when the outlier is removed.
If one outlier is discarded from each set, the two sets have the same standard deviation.
Example Question #2 : Interpret Difference In Shape Of Data Distribution: Ccss.Math.Content.Hss Id.A.3
Two students have taken ten math tests in the first quarter of the school year. Joe received the following scores on these ten tests:
Melissa obtained the following ten scores:
Predict which student will get the higher score on the next test.
Both students will get the same score
Melissa
Joe
Melissa
In order to solve this problem we need to make an inference. An inference is made using observations in prior knowledge. If we have multiple observations, then we can make better inferences. Let's develop our inference using the information provided for Joe and Melissa.
Joe obtained the following scores:
Let's tabulate this data into a histogram.
Let's find the mean of this data series. The mean is the arithmetic average of the data set. The mean is found by adding up the values and dividing the total by the number of values in the series.
Now let's calculate the standard deviation of the data series. The standard deviation for an entire population is found using the following formula:
First, we need to calculate how much each value deviates from the mean. We will do this by subtracting the mean from each value and squaring the difference.
Second, we will find the variance by adding up this values and dividing by the number of values in the series.
Last, the standard deviation equals the square root of the variance.
Now, we need to focus on Melissa's scores:
Let's tabulate this data into a histogram.
Let's find the mean of this data series. The mean is the arithmetic average of the data set. The mean is found by adding up the values and dividing the total by the number of values in the series.
Now let's calculate the standard deviation of the data series. The standard deviation for an entire population is found using the following formula:
First, we need to calculate how much each value deviates from the mean. We will do this by subtracting the mean from each value and squaring the difference.
Second, we will find the variance by adding up this values and dividing by the number of values in the series.
Last, the standard deviation equals the square root of the variance.
Now, let's review our data and calculations.
Given the information, we can see that Melissa's scores have a higher mean value and a smaller standard deviation for the set of values. This means that her scores are, on average, higher than Joe's and the vary less; therefore, we can predict that she will score higher on the test. Some may argue that Joe will score higher because of his on very high grade. It is true that he has the highest single grade between the two students; however, this is an outlier in the data. His lower mean score and higher tendency to vary between tests indicates that he will most likely not score higher than Melissa.
Example Question #3 : Interpret Difference In Shape Of Data Distribution: Ccss.Math.Content.Hss Id.A.3
Two students have taken ten math tests in the first quarter of the school year. Joe received the following scores on these ten tests:
Melissa obtained the following ten scores:
Predict which student will get the higher score on the next test.
Cannot be determined
Both students will get the same score
Joe
Melissa
Melissa
In order to solve this problem, we need to make an inference. An inference is made using observations in prior knowledge. If we have multiple observations, then we can make better inferences. Let's develop our inference using the information provided for Joe and Melissa.
Joe obtained the following scores:
Let's tabulate this data into a histogram.
Let's find the mean of this data series. The mean is the arithmetic average of the data set. The mean is found by adding up the values and dividing the total by the number of values in the series.
Now, let's calculate the standard deviation of the data series. The standard deviation for an entire population is found using the following formula:
First, we need to calculate how much each value deviates from the mean. We will do this by subtracting the mean from each value and squaring the difference.
Second, we will find the variance by adding up this values and dividing by the number of values in the series.
Last, the standard deviation equals the square root of the variance.
Now, we need to focus on Melissa's scores:
Let's tabulate this data into a histogram.
Let's find the mean of this data series. The mean is the arithmetic average of the data set. The mean is found by adding up the values and dividing the total by the number of values in the series.
Now, let's calculate the standard deviation of the data series. The standard deviation for an entire population is found using the following formula:
First, we need to calculate how much each value deviates from the mean. We will do this by subtracting the mean from each value and squaring the difference.
Second, we will find the variance by adding up this values and dividing by the number of values in the series.
Last, the standard deviation equals the square root of the variance.
Now, let's review our data and calculations.
Given the information, we can see that Melissa's scores have a higher mean value and a smaller standard deviation for the set of values. This means that her scores are—on average—higher than Joe's and they vary less; therefore, we can predict that she will score higher on the test. Some may argue that Joe will score higher because of his one very high grade. It is true that he has the highest single grade between the two students; however, this is an outlier in the data. His lower mean score and higher tendency to vary between tests indicates that he will most likely not score higher than Melissa.
Example Question #4 : Interpret Difference In Shape Of Data Distribution: Ccss.Math.Content.Hss Id.A.3
Two students have taken ten math tests in the first quarter of the school year. Joe received the following scores on these ten tests:
Melissa obtained the following ten scores:
Predict which student will get the higher score on the next test.
Joe
Both students will get the same score
Melissa
Cannot be determined
Melissa
In order to solve this problem we need to make an inference. An inference is made using observations in prior knowledge. If we have multiple observations, then we can make better inferences. Let's develop our inference using the information provided for Joe and Melissa.
Joe obtained the following scores:
Let's tabulate this data into a histogram.
Let's find the mean of this data series. The mean is the arithmetic average of the data set. The mean is found by adding up the values and dividing the total by the number of values in the series.
Now let's calculate the standard deviation of the data series. The standard deviation for an entire population is found using the following formula:
First, we need to calculate how much each value deviates from the mean. We will do this by subtracting the mean from each value and squaring the difference.
Second, we will find the variance by adding up this values and dividing by the number of values in the series.
Last, the standard deviation equals the square root of the variance.
Now, we need to focus on Melissa's scores:
Let's tabulate this data into a histogram.
Let's find the mean of this data series. The mean is the arithmetic average of the data set. The mean is found by adding up the values and dividing the total by the number of values in the series.
Now let's calculate the standard deviation of the data series. The standard deviation for an entire population is found using the following formula:
First, we need to calculate how much each value deviates from the mean. We will do this by subtracting the mean from each value and squaring the difference.
Second, we will find the variance by adding up this values and dividing by the number of values in the series.
Last, the standard deviation equals the square root of the variance.
Now, let's review our data and calculations.
Given the information, we can see that Melissa's scores have a higher mean value and a smaller standard deviation for the set of values. This means that her scores are, on average, higher than Joe's and the vary less; therefore, we can predict that she will score higher on the test. Some may argue that Joe will score higher because of his on very high grade. It is true that he has the highest single grade between the two students; however, this is an outlier in the data. His lower mean score and higher tendency to vary between tests indicates that he will most likely not score higher than Melissa.
Example Question #5 : Interpret Difference In Shape Of Data Distribution: Ccss.Math.Content.Hss Id.A.3
Two students have taken ten math tests in the first quarter of the school year. Joe received the following scores on these ten tests:
Melissa obtained the following ten scores:
Predict which student will get the higher score on the next test.
Melissa
Joe
Cannot be determined
Both students will get the same score
Melissa
In order to solve this problem, we need to make an inference. An inference is made using observations in prior knowledge. If we have multiple observations, then we can make better inferences. Let's develop our inference using the information provided for Joe and Melissa.
Joe obtained the following scores:
Let's tabulate this data into a histogram.
Let's find the mean of this data series. The mean is the arithmetic average of the data set. The mean is found by adding up the values and dividing the total by the number of values in the series.
Now, let's calculate the standard deviation of the data series. The standard deviation for an entire population is found using the following formula:
First, we need to calculate how much each value deviates from the mean. We will do this by subtracting the mean from each value and squaring the difference.
Second, we will find the variance by adding up this values and dividing by the number of values in the series.
Last, the standard deviation equals the square root of the variance.
Now, we need to focus on Melissa's scores:
Let's tabulate this data into a histogram.
Let's find the mean of this data series. The mean is the arithmetic average of the data set. The mean is found by adding up the values and dividing the total by the number of values in the series.
Now, let's calculate the standard deviation of the data series. The standard deviation for an entire population is found using the following formula:
First, we need to calculate how much each value deviates from the mean. We will do this by subtracting the mean from each value and squaring the difference.
Second, we will find the variance by adding up this values and dividing by the number of values in the series.
Last, the standard deviation equals the square root of the variance.
Now, let's review our data and calculations.
Given the information, we can see that Melissa's scores have a higher mean value and a smaller standard deviation for the set of values. This means that her scores are—on average—higher than Joe's and they vary less; therefore, we can predict that she will score higher on the test. Some may argue that Joe will score higher because of his one very high grade. It is true that he has the highest single grade between the two students; however, this is an outlier in the data. His lower mean score and higher tendency to vary between tests indicates that he will most likely not score higher than Melissa.
Example Question #6 : Interpret Difference In Shape Of Data Distribution: Ccss.Math.Content.Hss Id.A.3
Two students have taken ten math tests in the first quarter of the school year. Joe received the following scores on these ten tests:
Melissa obtained the following ten scores:
Predict which student will get the higher score on the next test.
Melissa
Cannot be determined
Both students will get the same score
Joe
Melissa
In order to solve this problem, we need to make an inference. An inference is made using observations in prior knowledge. If we have multiple observations, then we can make better inferences. Let's develop our inference using the information provided for Joe and Melissa.
Joe obtained the following scores:
Let's tabulate this data into a histogram.
Let's find the mean of this data series. The mean is the arithmetic average of the data set. The mean is found by adding up the values and dividing the total by the number of values in the series.
Now, let's calculate the standard deviation of the data series. The standard deviation for an entire population is found using the following formula:
First, we need to calculate how much each value deviates from the mean. We will do this by subtracting the mean from each value and squaring the difference.
Second, we will find the variance by adding up this values and dividing by the number of values in the series.
Last, the standard deviation equals the square root of the variance.
Now, we need to focus on Melissa's scores:
Let's tabulate this data into a histogram.
Let's find the mean of this data series. The mean is the arithmetic average of the data set. The mean is found by adding up the values and dividing the total by the number of values in the series.
Now, let's calculate the standard deviation of the data series. The standard deviation for an entire population is found using the following formula:
First, we need to calculate how much each value deviates from the mean. We will do this by subtracting the mean from each value and squaring the difference.
Second, we will find the variance by adding up this values and dividing by the number of values in the series.
Last, the standard deviation equals the square root of the variance.
Now, let's review our data and calculations.
Given the information, we can see that Melissa's scores have a higher mean value and a smaller standard deviation for the set of values. This means that her scores are—on average—higher than Joe's and they vary less; therefore, we can predict that she will score higher on the test. Some may argue that Joe will score higher because of his one very high grade. It is true that he has the highest single grade between the two students; however, this is an outlier in the data. His lower mean score and higher tendency to vary between tests indicates that he will most likely not score higher than Melissa.
Example Question #4 : Interpret Difference In Shape Of Data Distribution: Ccss.Math.Content.Hss Id.A.3
Two students have taken ten math tests in the first quarter of the school year. Joe received the following scores on these ten tests:
Melissa obtained the following ten scores:
Predict which student will get the higher score on the next test.
Joe
Cannot be determined
Both students will get the same score
Melissa
Joe
In order to solve this problem, we need to make an inference. An inference is made using observations in prior knowledge. If we have multiple observations, then we can make better inferences. Let's develop our inference using the information provided for Joe and Melissa.
Joe obtained the following scores:
Let's tabulate this data into a histogram.
Let's find the mean of this data series. The mean is the arithmetic average of the data set. The mean is found by adding up the values and dividing the total by the number of values in the series.
Now, let's calculate the standard deviation of the data series. The standard deviation for an entire population is found using the following formula:
\textup{Standard Deviation}=\sqrt{\frac{\sum(x-\textup{mean})^2}{n}}
First, we need to calculate how much each value deviates from the mean. We will do this by subtracting the mean from each value and squaring the difference.
Second, we will find the variance by adding up this values and dividing by the number of values in the series.
Last, the standard deviation equals the square root of the variance.
Now, we need to focus on Melissa's scores:
Let's tabulate this data into a histogram.
Let's find the mean of this data series. The mean is the arithmetic average of the data set. The mean is found by adding up the values and dividing the total by the number of values in the series.
Now, let's calculate the standard deviation of the data series. The standard deviation for an entire population is found using the following formula:
First, we need to calculate how much each value deviates from the mean. We will do this by subtracting the mean from each value and squaring the difference.
Second, we will find the variance by adding up this values and dividing by the number of values in the series.
Last, the standard deviation equals the square root of the variance.
Now, let's review our data and calculations.
Given the information, we can see that Joe's scores have a higher mean value and a smaller standard deviation for the set of values. This means that his scores are—on average—higher than Melissa's and they vary less; therefore, we can predict that he will score higher on the test. Some may argue that Melissa will score higher because of his one very high grade. It is true that she has the highest single grade between the two students; however, this is an outlier in the data. Her lower mean score and higher tendency to vary between tests indicates that she will most likely not score higher than Joe.
Example Question #8 : Interpret Difference In Shape Of Data Distribution: Ccss.Math.Content.Hss Id.A.3
Two students have taken ten math tests in the first quarter of the school year. Joe received the following scores on these ten tests:
Melissa obtained the following ten scores:
Predict which student will get the higher score on the next test.
Joe
Melissa
Cannot be determined
Both students will get the same score
Melissa
In order to solve this problem, we need to make an inference. An inference is made using observations in prior knowledge. If we have multiple observations, then we can make better inferences. Let's develop our inference using the information provided for Joe and Melissa.
Joe obtained the following scores:
Let's tabulate this data into a histogram.
Let's find the mean of this data series. The mean is the arithmetic average of the data set. The mean is found by adding up the values and dividing the total by the number of values in the series.
Now, let's calculate the standard deviation of the data series. The standard deviation for an entire population is found using the following formula:
First, we need to calculate how much each value deviates from the mean. We will do this by subtracting the mean from each value and squaring the difference.
Second, we will find the variance by adding up this values and dividing by the number of values in the series.
Last, the standard deviation equals the square root of the variance.
Now, we need to focus on Melissa's scores:
Let's tabulate this data into a histogram.
Let's find the mean of this data series. The mean is the arithmetic average of the data set. The mean is found by adding up the values and dividing the total by the number of values in the series.
Now, let's calculate the standard deviation of the data series. The standard deviation for an entire population is found using the following formula:
First, we need to calculate how much each value deviates from the mean. We will do this by subtracting the mean from each value and squaring the difference.
Second, we will find the variance by adding up this values and dividing by the number of values in the series.
Last, the standard deviation equals the square root of the variance.
Now, let's review our data and calculations.
Given the information, we can see that Melissa's scores have a higher mean value and a smaller standard deviation for the set of values. This means that her scores are—on average—higher than Joe's and they vary less; therefore, we can predict that she will score higher on the test. Some may argue that Joe will score higher because of his one very high grade. It is true that he has the highest single grade between the two students; however, this is an outlier in the data. His lower mean score and higher tendency to vary between tests indicates that he will most likely not score higher than Melissa.
Example Question #9 : Interpret Difference In Shape Of Data Distribution: Ccss.Math.Content.Hss Id.A.3
Two students have taken ten math tests in the first quarter of the school year. Joe received the following scores on these ten tests:
Melissa obtained the following ten scores:
Predict which student will get the higher score on the next test.
Cannot be determined
Melissa
Joe
Both students will get the same score
Joe
In order to solve this problem, we need to make an inference. An inference is made using observations in prior knowledge. If we have multiple observations, then we can make better inferences. Let's develop our inference using the information provided for Joe and Melissa.
Joe obtained the following scores:
Let's tabulate this data into a histogram.
Let's find the mean of this data series. The mean is the arithmetic average of the data set. The mean is found by adding up the values and dividing the total by the number of values in the series.
Now, let's calculate the standard deviation of the data series. The standard deviation for an entire population is found using the following formula:
First, we need to calculate how much each value deviates from the mean. We will do this by subtracting the mean from each value and squaring the difference.
Second, we will find the variance by adding up this values and dividing by the number of values in the series.
Last, the standard deviation equals the square root of the variance.
Now, we need to focus on Melissa's scores:
Let's tabulate this data into a histogram.
Let's find the mean of this data series. The mean is the arithmetic average of the data set. The mean is found by adding up the values and dividing the total by the number of values in the series.
Now, let's calculate the standard deviation of the data series. The standard deviation for an entire population is found using the following formula:
First, we need to calculate how much each value deviates from the mean. We will do this by subtracting the mean from each value and squaring the difference.
Second, we will find the variance by adding up this values and dividing by the number of values in the series.
Last, the standard deviation equals the square root of the variance.
Now, let's review our data and calculations.
Given the information, we can see that Joe's scores have a higher mean value and a smaller standard deviation for the set of values. This means that his scores are—on average—higher than Melissa's and they vary less; therefore, we can predict that he will score higher on the test. Some may argue that Melissa will score higher because of his one very high grade. It is true that she has the highest single grade between the two students; however, this is an outlier in the data. Her lower mean score and higher tendency to vary between tests indicates that she will most likely not score higher than Joe.
Example Question #10 : Interpret Difference In Shape Of Data Distribution: Ccss.Math.Content.Hss Id.A.3
Two students have taken ten math tests in the first quarter of the school year. Joe received the following scores on these ten tests:
Melissa obtained the following ten scores:
Predict which student will get the higher score on the next test.
Joe
Melissa
Both students will get the same score
Cannot be determined
Melissa
In order to solve this problem, we need to make an inference. An inference is made using observations in prior knowledge. If we have multiple observations, then we can make better inferences. Let's develop our inference using the information provided for Joe and Melissa.
Joe obtained the following scores:
Let's tabulate this data into a histogram.
Let's find the mean of this data series. The mean is the arithmetic average of the data set. The mean is found by adding up the values and dividing the total by the number of values in the series.
Now, let's calculate the standard deviation of the data series. The standard deviation for an entire population is found using the following formula:
First, we need to calculate how much each value deviates from the mean. We will do this by subtracting the mean from each value and squaring the difference.
Second, we will find the variance by adding up this values and dividing by the number of values in the series.
Last, the standard deviation equals the square root of the variance.
Now, we need to focus on Melissa's scores:
Let's tabulate this data into a histogram.
Let's find the mean of this data series. The mean is the arithmetic average of the data set. The mean is found by adding up the values and dividing the total by the number of values in the series.
Now, let's calculate the standard deviation of the data series. The standard deviation for an entire population is found using the following formula:
First, we need to calculate how much each value deviates from the mean. We will do this by subtracting the mean from each value and squaring the difference.
Second, we will find the variance by adding up this values and dividing by the number of values in the series.
Last, the standard deviation equals the square root of the variance.
Now, let's review our data and calculations.
Given the information, we can see that Melissa's scores have a higher mean value and a smaller standard deviation for the set of values. This means that her scores are—on average—higher than Joe's and they vary less; therefore, we can predict that she will score higher on the test. Some may argue that Joe will score higher because of his one very high grade. It is true that he has the highest single grade between the two students; however, this is an outlier in the data. His lower mean score and higher tendency to vary between tests indicates that he will most likely not score higher than Melissa.
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