COMP42215 Introduction to Computer

INTRODUCTION TO COMPUTER SCIENCE 2024/2025 Masters Programmes 

 

Coursework Administrative Details 

 

Module/Lecture Course: COMP42215 Introduction to Computer Science 

Deadline for submission: 14:00 Friday 13

th

 December 2024 

Work returned: Week Beginning 13

th

 January 2025 

Submission 

instructions: 

Submit via Jupyterhub on NCC. Video guidance will be 

provided separately. 

Format: You should submit a single Jupyter notebook file that 

contains your code and written answers. Do not put 

your name on your work, just your username. 

Contribution: This coursework contributes 100% to the final mark for 

the module. 

 

In accordance with University procedures, submissions that are up to 5 working 

days late will be subject to a cap of the module pass mark, and later submissions 

will receive a mark of zero. 

 

Content and skills covered by the assignment: 

• Be able to write computer programs in Python 

• Be able to select appropriate data structures 

• Be able to evaluate the complexity of an algorithm 

• Effective written communication 

• Planning, organising and time-management 

• Problem solving and analysis 

  

INTRODUCTION TO COMPUTER SCIENCE 2024/2025 Masters Programmes 

 

General Requirements 

You should develop an iPython (Jupyter) notebook to assess the performance and 

algorithmic complexity of various algorithms using a range of data structures. Your 

written answers should be meet the word limits described in each question. 

In each question that requires you to write code you should consider issues such as 

error checking, the use of appropriate data structures, the efficiency of your code and 

comments to aid understanding. 

Please answer each question in a separate code block in your Jupyter notebook, and 

clearly label each with a comment containing the question number. 

 

Section 1 (10%) 

 

1. Write a function to generate a Python list that contains random unique integers, 

i.e. no value should appear more than once in the list. The function should take 

as an argument the desired size of the list and set a seed of your choice. [4%] 

2. Write a function to 代写COMP42215 Introduction to Computer convert a Python list of integers into a NumPy array of 

integers. The function should take as an argument a Python list. [2%] 

3. Write a function to convert a Python list into a dictionary. The keys of the 

dictionary should be the values stored in the list, and the values should be 

randomly generated floating points values. The function should take as an 

argument a Python list. [4%] 

 

Section 2 (25%) 

 

4. Write a function that takes a Python list and an integer value as arguments, and 

returns True if the integer value exists in the list. The function should return False 

otherwise. [3%] 

5. Write a function that takes a NumPy array and an integer value as arguments, 

and returns True if the integer value exists in the array. The function should 

return False otherwise. [3%] 

6. Write a function that takes a Python dictionary and an integer value as 

arguments, and returns True if the integer value exists as a key in the dictionary. 

The function should return False otherwise. [3%] 

7. Time your functions from Q4, Q5 and Q6 on an appropriate range of input sizes 

(using your solutions to Q1, Q2 and Q3 to generate the inputs). Use the data you 

collect to draw graphs (using matplotlib) that compare the performance of your 

functions. [8%] 

 

Questions continue onto next page 

INTRODUCTION TO COMPUTER SCIENCE 2024/2025 Masters Programmes 

 

8. Discuss in 200 words or less what your results show. You should consider the 

computational complexity of your functions. If you don’t manage to collect any 

data to discuss you should research and discuss what you would expect the 

results to show. [8%] 

 

Section 3 (15%) 

 

9. Write a function to sort a Python list of integers. You may implement any 

algorithm of your choosing, or use one of the built-in sorting methods. [2%] 

10. Write a function that takes a sorted Python list and an integer value as 

arguments. You should use functions available to you in the ‘bisect’ module to 

determine if the integer value exists in the sorted list, and return True if it does. 

The function should otherwise return False. [4%] 

11. Time your functions from Q4 and Q9 on an appropriate range of input sizes 

(using your solutions to Q1 and Q9 to generate the inputs). Use the data you 

collect to draw graphs (using matplotlib) that compare the performance of your 

functions. [5%] 

12. Discuss in 100 words or less what your results show. You should consider the 

computational complexity of your functions. If you don’t manage to collect any 

data to discuss you should research and discuss what you would expect the 

results to show. [4%] 

 

Section 4 (40%) 

 

13. Write a function that takes a single integer, x, as an argument and outputs a 

Python set containing the divisors of x. E.g. If the input x were 20, then the output 

would be {1,2,4,5,10,20}. You should consider the efficiency of your solution. 

[10%] 

14. Write a function that takes a Python list of integers as an argument, and outputs 

the greatest common divisor (GCD) of all of the values in the list. You should use 

your function from Q13 to find the divisors of each value in the list and use 

appropriate set operations to find the GCD. E.g. If the input array were [20,15,45] 

the GCD would be 5 as it is the largest divisor the three values have in common. 

[8%] 

 

Questions continue onto next page 

INTRODUCTION TO COMPUTER SCIENCE 2024/2025 Masters Programmes 

 

15. Write a function that takes a Python list of integers and uses the built-in 

math.gcd() function to calculate the GCD of all of the values in the list. You 

should assume that the math.gcd() function will only take two arguments, e.g. 

math.gcd(12,4). You will likely need to loop through the input list using the gcd 

function multiple times. [8%] 

16. Time your functions from Q13, Q14 and Q15 on an appropriate range of input 

sizes (using your solution to Q1 to generate the inputs). Use the data you collect 

to draw graphs (using matplotlib) that compare the performance of your functions. 

[6%] 

17. Discuss in 200 words or less what your results show. You should consider the 

computational complexity of your functions. If you don’t manage to collect any 

data to discuss you should research and discuss what you would expect the 

results to show. [8%] 

 

Section 5 (10%) 

 

18. In 250 words or less, reflect on the taught content and the learning outcomes of 

this module and identify the three most important points that you will take into 

future modules. [10%] 

  

INTRODUCTION TO COMPUTER SCIENCE 2024/2025 Masters Programmes 

 

Examiners will stop reading once the word limit has been reached, and work beyond 

this point will not be assessed. Checks of word counts will be carried out on submitted 

work. Checks may take place manually and/or with the aid of the word count provided 

via an electronic submission. 

 

You should include any relevant references that you have used in writing your written 

answers, and these will not be included in the word count for the question. 

 

PLAGIARISM and COLLUSION 

Your assignment will be put through plagiarism detection services. 

Students suspected of plagiarism, either of published work or work from unpublished 

sources, including the work of other students, or of collusion, will be dealt with 

according to Computer Science and University guidelines. 

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