\nelements = (1, 2, 4)\nbitset = ____ # 1. Initialize bitset\n\n# Add elements to bitset\nfor i in elements:\n bitset = ____ # 2. Add element to bitset\n\n# Print contents of bitset\nprint(bitset) # A. After adding alements to bitset\n\n# Test for elements in bitset\nfor i in range(6):\n if ____: # 3. Test if element is in bitset\n print(i)\n\n# Remove elements from bitset\nfor i in elements:\n bitset = _____ # 4. Remove element from bitset\n\n# Print contents of bitset\nprint(bitset) # B. After removing elements from bitset\n\n" }, "q2": { "type": "blank", "question": "\n\n\nGiven a completed version of the bitset Python script above, what values\nare printed at the lines marked by the comments:\n\n\n\n
\nA. ____ After adding elements to bitset.\n
\n\n\nB. ____ After removing elements from bitset.\n
\n" }, "q3": { "type": "multiple", "question": "\n\n\nIn regards to greedy algorithms, which of the following statements are true\n(select all that apply)?\n\n\n", "responses": { "approach": "A greedy algorithm constructs a solution by choosing the best option at the moment.", "backtrack": "A greedy algorithm will backtrack when it finds a suboptimal solution.", "guarantee": "A greedy algorithm is guaranteed to find the optimal solution.", "efficiency": "A greedy algorithm tends to be very efficient." } }, "q4": { "type": "single", "question": "\n\n\nGiven n events with their starting and ending times, which of the following\ngreedy strategies is considered optimal?\n\n\n", "responses": { "shortest": "Always choose the event with the shortest time first.", "begin": "Always choose the event with the earliest start time first.", "end": "Always choose the event with the earliest end time first.", "osclass": "I am not in operating systems." } } }