22.05.2020

Someone help me pls Find The Mean, Median, and mode range of 13, 25, 7, 28, 42, 7, 15, 23, 1, 17.

. 0

Step-by-step answer

09.07.2023, solved by verified expert
Unlock the full answer

Mean- 17.8 Median- 16 Mode- 17.8

Step-by-step explanation:

1. Put the numbers in ascending order.

1, 7, 7, 13, 15, 17, 23, 25, 28, 42

2. Look for the median. The median is the number located in the middle of a set of numbers. In this case, the median is going to be between 15 and 17 because they are both in the middle. This means that the median will be 16.

1, 7, 7, 13, 15, 17, 23, 25, 28, 42

3. Find the mode. The mode is the number you see the most in a set of numbers. In this case, there are two 7's so 7 is the mode of this set.

1, 7, 7, 13, 15, 17, 23, 25, 28, 42

4. Find the mean. The mean is the overall average of a set of numbers. To find the average, find the sum of all the numbers in the set and divide it by the number of integers there are. In this case, there are ten integers, so we'll find the sum (178) and divide it by 10 to get a mean of 17.8.

Someone help me pls Find The Mean, Median, and, №18011234, 22.05.2020 01:02 = 17.8

5. Find the range. The range is basically the difference between the lowest and highest values in a set of numbers. The lowest number is 1 and the highest is 42. So, we'll subtract the two to get a range of 41.

1, 7, 7, 13, 15, 17, 23, 25, 28, 42

42 - 1 = 41

It is was helpful?

Faq

Mathematics
Step-by-step answer
P Answered by Specialist

Mean- 17.8 Median- 16 Mode- 17.8

Step-by-step explanation:

1. Put the numbers in ascending order.

1, 7, 7, 13, 15, 17, 23, 25, 28, 42

2. Look for the median. The median is the number located in the middle of a set of numbers. In this case, the median is going to be between 15 and 17 because they are both in the middle. This means that the median will be 16.

1, 7, 7, 13, 15, 17, 23, 25, 28, 42

3. Find the mode. The mode is the number you see the most in a set of numbers. In this case, there are two 7's so 7 is the mode of this set.

1, 7, 7, 13, 15, 17, 23, 25, 28, 42

4. Find the mean. The mean is the overall average of a set of numbers. To find the average, find the sum of all the numbers in the set and divide it by the number of integers there are. In this case, there are ten integers, so we'll find the sum (178) and divide it by 10 to get a mean of 17.8.

\frac{1+7+7+13+15+17+23+25+28+42}{10} = 17.8

5. Find the range. The range is basically the difference between the lowest and highest values in a set of numbers. The lowest number is 1 and the highest is 42. So, we'll subtract the two to get a range of 41.

1, 7, 7, 13, 15, 17, 23, 25, 28, 42

42 - 1 = 41

Mathematics
Step-by-step answer
P Answered by Specialist

Range and mean is much affect but median and mode is not much affected.

Step-by-step explanation:

Jason's scores in first 10 games are : 18, 23, 14, 26, 16, 10, 12, 24, 14, 13

Now, if Jason score is 40 points in next game it wll be outlier since it's distance is large from other scores of game. It will affect mean and mode large but didn't affect median large as Median and Mode is not much affected by Outliers. We can see the difference:

The new Range will be: Largest Score - Smallest score

                                      = 40 - 10 = 30 (Before it was 16 )

The new Mean will be: \dfrac{Sum of all observation}{Total number of observation}

 = \dfrac{ 18+ 23 + 14 +26 +16 +10 +12 +24+ 14 + 13 +40}{11}

 = 19.1 (before it was 17)

The new Median will be = [tex](\frac{11+1}{2})th term

 = 6th term = 16 (Before it was 15)

The new Mode will be = 14  ( Same as before)

Mathematics
Step-by-step answer
P Answered by Master

Range and mean is much affect but median and mode is not much affected.

Step-by-step explanation:

Jason's scores in first 10 games are : 18, 23, 14, 26, 16, 10, 12, 24, 14, 13

Now, if Jason score is 40 points in next game it wll be outlier since it's distance is large from other scores of game. It will affect mean and mode large but didn't affect median large as Median and Mode is not much affected by Outliers. We can see the difference:

The new Range will be: Largest Score - Smallest score

                                      = 40 - 10 = 30 (Before it was 16 )

The new Mean will be: \dfrac{Sum of all observation}{Total number of observation}

 = \dfrac{ 18+ 23 + 14 +26 +16 +10 +12 +24+ 14 + 13 +40}{11}

 = 19.1 (before it was 17)

The new Median will be = [tex](\frac{11+1}{2})th term

 = 6th term = 16 (Before it was 15)

The new Mode will be = 14  ( Same as before)

Mathematics
Step-by-step answer
P Answered by Master
A. The scores in order are: 10, 12, 13, 14, 14, 16, 18, 23, 24, 26. The range is 26 - 10 = 16. The mean is the sum divided by 10, which is 17. The median is between 14 & 16, which is 15. The mode is 14, since it is repeated twice.
B. The variance is calculated by subtracting each score from the mean, squaring, and adding all such squares. Then divide by the number of terms (10) to get 27.6 Take the square root to get the standard deviation, which is 5.25.
C. This is for a population, since these are all 10 games that Jason played. (If it were a sample, we would divide by 9 only)

D. The mean of 17 is higher than the median of 15 and the mode of 14. This implies a left-skewed distribution. However, the SD of 5.25 is quite high relative to the mean of 17, so the distribution is not that clearly defined yet (more data points would make it clearer).
Mathematics
Step-by-step answer
P Answered by Master
A. The scores in order are: 10, 12, 13, 14, 14, 16, 18, 23, 24, 26. The range is 26 - 10 = 16. The mean is the sum divided by 10, which is 17. The median is between 14 & 16, which is 15. The mode is 14, since it is repeated twice.
B. The variance is calculated by subtracting each score from the mean, squaring, and adding all such squares. Then divide by the number of terms (10) to get 27.6 Take the square root to get the standard deviation, which is 5.25.
C. This is for a population, since these are all 10 games that Jason played. (If it were a sample, we would divide by 9 only)

D. The mean of 17 is higher than the median of 15 and the mode of 14. This implies a left-skewed distribution. However, the SD of 5.25 is quite high relative to the mean of 17, so the distribution is not that clearly defined yet (more data points would make it clearer).

Try asking the Studen AI a question.

It will provide an instant answer!

FREE