# Coding PracticeΒΆ

Fix the function below so that it returns how many even numbers are in `nums`

.
Select the Parsonsprob tab for hints for the construction of the code.

Fix the function below so that it returns how many even numbers are in `nums`

.
Use the lines to construct the code, then go back to complete the Activecode tab.

Someone could have COVID-19 if their temperature is above 99.9 degrees Fahrenheit. Finish the code below so that it counts and prints how many students in the class may have been exposed. Select the Parsonsprob tab for hints for the construction of the code.

Someone could have COVID-19 if their temperature is above 99.9 degrees Fahrenheit. Finish the code below so that it counts and prints how many students in the class may have been exposed. Use the lines to construct the code, then go back to complete the Activecode tab.

Write the function `endsEven`

that takes a vector and removes elements from the end of the vector until
it ends with an even number. Select the Parsonsprob tab for hints for the construction of the code.

Write the function `endsEven`

that takes a vector and removes elements from the end of the vector until
it ends with an even number. Use the lines to construct the code, then go back to complete the Activecode tab.

Write the function `randomNums`

that takes two integers: `num`

which is the number of random numbers
you wish to generate, and `max`

, which is the maximum value of random number you wish to generate. Your
function should return a vector of `num`

integers that are between 1 and `max`

, inclusive.
Select the Parsonsprob tab for hints for the construction of the code.

Write the function `randomNums`

that takes two integers: `num`

which is the number of random numbers
you wish to generate, and `max`

, which is the maximum value of random number you wish to generate. Your
function should return a vector of `num`

integers that are between 1 and `max`

, inclusive.
Use the lines to construct the code, then go back to complete the Activecode tab.

Write the function `hundyBundy`

that returns a count of all numbers in the passed vector
`vec`

that are divisible by 100. Select the Parsonsprob tab for hints for the construction of the code.

Write the function `hundyBundy`

that returns a count of all numbers in the passed vector
`vec`

that are divisible by 100. Use the lines to construct the code, then go back to complete the Activecode tab.

Write the function `weird_print`

that prints the first half of a vector of integers in reverse order
and then prints the second half in the order present in the vector.
If we had `vec = {1,2,3,4,5,6}`

we would print `3 2 1 4 5 6`

.
You can assume the size of the vector will always be even.
Select the Parsonsprob tab for hints for the construction of the code.

Write the function `weird_print`

that prints the first half of a vector of integers in reverse order
and then prints the second half in the order present in the vector.
If we had `vec = {1,2,3,4,5,6}`

we would print `3 2 1 4 5 6`

.
You can assume the size of the vector will always be even.
Use the lines to construct the code, then go back to complete the Activecode tab.