As 23 is a single number, its median is itself. If you meant 2 and 3, then the median is 2.5, the value halfway between them, which in this case is also the mean of the two numbers.
The median is 18
7, 11, (16), 18, 23. The median is 16 (shown in brackets).
The median is the number that is in the middle of a list of numbers once this sequence has been reordered. If the numbers are 45,56,23,34,67 then the median is 45 (not 23).
Median is the middle number in a group of numbers. If there more than one middle number, the median is either shown as average of the two numbers in the middle or shown as both the numbers. The median in 23 24 26 29 is 25 or {24;26}.
It is 81
The median is 18
Then that number will be the median. For example, if your set is 4, 4, 19, 20, 23, 23, 23, 43, 62, 76 and 89, then the second 23 is the middle number, and so it is the Median.
The median is 19.
The median is 19.
To find the median, first, arrange the numbers in order (which they already are). The median is the middle value, so for the ten numbers provided, the median will be the average of the 5th and 6th values. The 5th value is 20 and the 6th value is 23, so the median is (20 + 23) / 2 = 21.5.
45
The difference between the two is 23. Half of that is 11.5. Add that to the 1 or take it away from the 23 and you get 12.5 so that is the median.
7, 11, (16), 18, 23. The median is 16 (shown in brackets).
Median: 25 Mean: 23
(4 + 23)/2 = 27/2 = 13.5
The median is the number that is in the middle of a list of numbers once this sequence has been reordered. If the numbers are 45,56,23,34,67 then the median is 45 (not 23).
No, the median does not have to be one of the data values. The median is the middle value of a sorted data set, and it can be the average of two middle numbers if the set has an even number of values. Thus, while 23 is the median, it may not necessarily appear in the original data set.