The set of numbers is bimodal with modes 3 and 5.
5,5, and 14
there is no mode for this set of numbers
The prime numbers that can be subtracted to equal 14 are 17 and 3. This is because 17 - 3 = 14. Prime numbers are numbers greater than 1 that have no divisors other than 1 and themselves. In this case, 17 and 3 are both prime numbers, and their difference is 14.
Mode is the average. You have to add all the numbers together, and then divide by how many numbers there are. Example: Add: 1+2+3+3+6= 15 then Divide: 15/5=3. Three is your mode.
If there is no repeated numbers there is simply no mode. If there is two numbers that are the same, (example: 3,3) then that will be your mode. (Data: 3,3 Mode:3)
5,5, and 14
there is no mode for this set of numbers
The statistical mode of a set of numbers is the number(s) that occur the most times. There is no mode for a single number. If the set of numbers was 3, 4, 1, 3, 5, 2, for example, the mode is 3, since it occurs twice.
The prime numbers that can be subtracted to equal 14 are 17 and 3. This is because 17 - 3 = 14. Prime numbers are numbers greater than 1 that have no divisors other than 1 and themselves. In this case, 17 and 3 are both prime numbers, and their difference is 14.
Mode is the average. You have to add all the numbers together, and then divide by how many numbers there are. Example: Add: 1+2+3+3+6= 15 then Divide: 15/5=3. Three is your mode.
3-6-7-14-15 x2 +1 x2 +1
From the number set 1, 2, 3, 4, I can tell that the range is 3, The mean is 2.5, the median is 2.5, yet there is absolutely no mode.
The mode is 3.
If there is no repeated numbers there is simply no mode. If there is two numbers that are the same, (example: 3,3) then that will be your mode. (Data: 3,3 Mode:3)
1, 3 and 10.
4
1