priority = [ 2, 6, 1, 7, 10, 8, 5]
time = [30,200,20,70,120,60, 150]
#
# define number of tasks: don't hardwire this but rather use the len() command
n_tasks = len(priority)
max_time = len(time)
print ( f"TASK\tPRIORITY\tTIME TO COMPLETE")
# you need to add an appropriate for loop here and modify the next print statement so that you can print out all tasks
for i in range(len(priority)):
print(f"{i+1}\t{priority[i]}\t\t{time[i]}")

```
TASK PRIORITY TIME TO COMPLETE
1 2 30
2 6 200
3 1 20
4 7 70
5 10 120
6 8 60
7 5 150
```

test_list = [ 4, 5, 3, 7, 11, 2]
max_value = max(test_list) # use function max() to find maximum value in list
max_index = test_list.index(max_value) # use method list.index () to find the index where this max occurs
print(f"The maximum value is {max_value} at index {max_index}") # print out results in formatted statement

```
The maximum value is 11 at index 4
```

test_list = [ 4, 5, 3, 7, 11, 2]
time_list = [30, 45, 20, 120, 90, 70 ]
max_value = max(test_list)
max_index = test_list.index(max_value)
task_time = time_list[max_index] # input the time it takes to complete this task
print(f"The maximum value is priority {max_value} at index {max_index}.")
print(f"The task time is {task_time} minutes.") # print out values as in Step #2 plus the time it takes to complete task

```
The maximum value is priority 11 at index 4.
The task time is 90 minutes.
```

max_time = 6 * 60 # this is not the maximum time available for your example but rather for testing
time_used = 3 * 60
#
# Following 6 statements are from Step 3
test_list = [ 4, 5, 3, 7, 11, 2]
time_list = [30, 45, 20, 120, 90, 70 ]
max_value = max(test_list)
max_index = test_list.index(max_value)
task_time = time_list[max_index]
print(f"The maximum value is priority {max_value} at index {max_index}.")
print(f"The task time is {task_time} minutes.")
#
# Add conditional to see if this task can be completed in the allotted time
if (time_used+task_time <= max_time):
print(f"Current time used is {time_used}.")
time_used += task_time
print(f"After completing task {max_index+1}, time used is now {time_used}.")
# if conditional is true, i.e., task can be completed update time_used
# add print statements

```
The maximum value is priority 11 at index 4.
The task time is 90 minutes.
Current time used is 180.
After completing task 5, time used is now 270.
```

# Input problem specific data and print it out from Step 1
priority = [ 2, 6, 1, 7, 10, 8, 5]
time = [30,200,20,70,120,60, 150]
n_tasks = len(priority)
max_time = len(time)
print (f"TASK\tPRIORITY\tTIME TO COMPLETE")
for i in range(len(priority)):
print(f"{i+1}\t{priority[i]}\t\t{time[i]}")
# Initialize any variables before loop
max_time = 6 * 60
time_used = 0
# add for loop to go through all tasks
for tasks in range(n_tasks):
# find highest priority left and task number it corresponds to from Step 3/4
max_value = max(priority)
max_index = priority.index(max_value)
task_time = time_list[max_index]
# zero out this entry in the priority list so you won't find it again
priority.pop(priority.index(max_value))
# add conditional to check to see if task can be completed as in Step 4
if (time_used+task_time <= max_time):
print(f"Current time used is {time_used}.")
time_used += task_time
print(f"After completing task {max_index+1}, time used is now {time_used}.")
else:
print(f"There's not enough time for task {max_index+1}")
# Print out the total time used for all tasks in day 1
print(f"The total time used on day 1 is {time_used}.")

```
TASK PRIORITY TIME TO COMPLETE
1 2 30
2 6 200
3 1 20
4 7 70
5 10 120
6 8 60
7 5 150
Current time used is 0.
After completing task 5, time used is now 90.
The total time used on day 1 is 90.
Current time used is 90.
After completing task 5, time used is now 180.
The total time used on day 1 is 180.
Current time used is 180.
After completing task 4, time used is now 300.
The total time used on day 1 is 300.
Current time used is 300.
After completing task 2, time used is now 345.
The total time used on day 1 is 345.
There's not enough time for task 3
The total time used on day 1 is 345.
There's not enough time for task 1
The total time used on day 1 is 345.
There's not enough time for task 1
The total time used on day 1 is 345.
```

# Input problem specific data and print it out from Step 1
priority = [ 2, 6, 1, 7, 10, 8, 5]
time = [30,200,20,70,120,60, 150]
n_tasks = len(priority)
max_time = len(time)
print (f"TASK\tPRIORITY\tTIME TO COMPLETE")
for i in range(len(priority)):
print(f"{i+1}\t{priority[i]}\t\t{time[i]}")
# Initialize any variables before loop
max_time = 6 * 60
time_used = 0
# add for loop to go through all tasks
for tasks in range(n_tasks):
# find highest priority left and task number it corresponds to from Step 3/4
max_value = max(priority)
max_index = priority.index(max_value)
task_time = time_list[max_index]
# zero out this entry in the priority list so you won't find it again
priority.pop(priority.index(max_value))
# add conditional to check to see if task can be completed as in Step 4
if (time_used+task_time < max_time):
time_used += task_time
print(f"After completing task {max_index+1}, time used is now {time_used}.")
elif (time_used+task_time == max_time):
# add conditional to check to see if task can be completed as in Step 4
# if this conditional is satisfied then add another conditional to check if time_used = max_time
# if so break out of loop
break
else:
print(f"There's not enough time for task {max_index+1}")
# Print out the total time used for all tasks in day 1
print(f"The total time used on day 1 is {time_used}.")

```
TASK PRIORITY TIME TO COMPLETE
1 2 30
2 6 200
3 1 20
4 7 70
5 10 120
6 8 60
7 5 150
After completing task 5, time used is now 90.
The total time used on day 1 is 90.
After completing task 5, time used is now 180.
The total time used on day 1 is 180.
After completing task 4, time used is now 300.
The total time used on day 1 is 300.
After completing task 2, time used is now 345.
The total time used on day 1 is 345.
There's not enough time for task 3
The total time used on day 1 is 345.
There's not enough time for task 1
The total time used on day 1 is 345.
There's not enough time for task 1
The total time used on day 1 is 345.
```

# Input problem specific data
old_priority = [ 2, 6, 1, 7, 10, 8, 5]
time = [30,200,20,70,120,60, 150]
n_tasks = len(old_priority)
#
# Create new priority list containing ratios
#
priority = [] # initialize the list which contains the new priorities which are original priority divided by
# time it takes to complete this task
# add for loop to create this list
#
# use method .append() to create elements of the new priority list
#
for i in range(n_tasks):
priority.append(old_priority[i]/time[i])
print(f"{priority}")
# Remainder of code should be the same; this is because we called the new list which contained the ratios the same as
# before.
max_time = len(time)
print (f"TASK\tPRIORITY\tTIME TO COMPLETE")
for i in range(len(priority)):
print(f"{i+1}\t{priority[i]}\t\t{time[i]}")
# Initialize any variables before loop
max_time = 6 * 60
time_used = 0
# add for loop to go through all tasks
for tasks in range(n_tasks):
# find highest priority left and task number it corresponds to from Step 3/4
max_value = max(priority)
max_index = priority.index(max_value)
task_time = time_list[max_index]
# zero out this entry in the priority list so you won't find it again
priority.pop(priority.index(max_value))
# add conditional to check to see if task can be completed as in Step 4
if (time_used+task_time < max_time):
time_used += task_time
print(f"After completing task {max_index+1}, time used is now {time_used}.")
elif (time_used+task_time == max_time):
# add conditional to check to see if task can be completed as in Step 4
# if this conditional is satisfied then add another conditional to check if time_used = max_time
# if so break out of loop
break
else:
print(f"There's not enough time for task {max_index+1}")
# Print out the total time used for all tasks in day 1
print(f"The total time used on day 1 is {time_used}.")

```
[0.06666666666666667, 0.03, 0.05, 0.1, 0.08333333333333333, 0.13333333333333333, 0.03333333333333333]
TASK PRIORITY TIME TO COMPLETE
1 0.06666666666666667 30
2 0.03 200
3 0.05 20
4 0.1 70
5 0.08333333333333333 120
6 0.13333333333333333 60
7 0.03333333333333333 150
After completing task 6, time used is now 70.
The total time used on day 1 is 70.
After completing task 4, time used is now 190.
The total time used on day 1 is 190.
After completing task 4, time used is now 310.
The total time used on day 1 is 310.
After completing task 1, time used is now 340.
The total time used on day 1 is 340.
There's not enough time for task 2
The total time used on day 1 is 340.
There's not enough time for task 2
The total time used on day 1 is 340.
There's not enough time for task 1
The total time used on day 1 is 340.
```