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日期:2024-10-08 02:20

MATH36031 Problem solving by computer.

Project 1 - deadline 25th October 2024, time 1100hrs.  Submission of the project is via Blackboard.

Recurring  decimals  Consider the  rational  number  x  = p/q where p,q are  positive integers,  p  <  q  and  the  integer  q ends  with  the  digit  9.   It  is  known  that  the  decimal expansion of x takes the form. of a recurring decimal with

x = 0.a1 a2 . . . aα . . .

where the ai  are non-negative integers and Q is the smallest integer such that the sequence a1 a2 . . . aα  repeats.  We define Q to be the period of the recurring fraction.  The bar over the digits denotes the recurring sequence.

For example with p = 1, q = 19

x = 19/1 = 0.052631578947368421

and

a1  = 0, a2  = 5, . . . a18  = 1,    with    Q = 18.

Task  1:   Write  a  function  RecFrac1  such  that  [k,a]  =  RecFrac1(p,q) returns  the period k of the recurring fraction p/q and the variable a which contains the recurring digits a1 , a2, . . . , ak , in the decimal expansion of p/q.  Here the integers p,q are positive and the last digit of q is 9.  In performing this task you need to use Algorithm 1 (mentioned below).

The first few lines of your code should look like:

function   [ k   ,  a  ]  =   RecFrac1 (  p , q   )

% %  RecFrac1   uses   Algorithm   1   and   returns   the   recurring   digits   in   the %  decimal     expansion   of    p   / q   ,   among   all   pairs   of

%  positive   integers   ( p   ,  q  )   such   that  p <  q   and   the   last   digit   of   q   is     a   9.

Task  2:   Write  a  function  RecFrac2 such  that  [k,a]  =  RecFrac2(p,q) returns  the period k of the recurring fraction p/q and the variable a which contains the recurring digits a1 , a2, . . . , ak , in the decimal expansion of p/q.  Here the integers p,q are positive and the last digit of q is 9.  In performing this task you need to use Algorithm 2 (mentioned below).

The first few lines of your code should look like:

function   [ k   ,  a  ]  =   RecFrac2 (  p , q   )

% %  RecFrac2   uses   Algorithm   2   and   returns   the   recurring   digits   in   the %  decimal     expansion   of    p   / q   ,   among   all   pairs   of

%  positive   integers   ( p   ,  q  )   such   that  p <  q   and   the   last   digit   of   q   is     a   9.

Task 3: Using the RecFrac functions defined in Task 1 or Task 2 find positive integers r, swith r < s <= 649, and with the last digit of sending in a 9, such that that period of the recurring fraction r/s is largest.  Display all the recurring digits.  If there is more than one pair with the largest recurring digits, show the pair with the largest s value. If additionally there are multiple (r, s) values with the largest period and largest s, choose the pair with the largest r to display your answer and as part of the required output list all the (r, s) values in your report suitably formatted.

Notes:  (a) you can assume that p,q  are positive integers.  You will need to build in a check of the validity of the input, ie that the number q ends in a 9 and that p < q.

(b) In computing the recurring digits you need to use both Algorithms 1 and 2 and you will need to give details of how the algorithms compute the recurring digits in your report.  Detailed proofs are not expected.

Note that a naive application of simple division will not work as the period of the recurring digits will in most cases be larger than the typical values computed via simple application of division in MATLAB.

(c) One algorithm is described in the video clip labelled Algorithm  1  in the Projects folder in Blackboard for this module. Another algorithm using the ancient Vedic system of mathematics developed in India is explained in the video clip labelled Algorithm  2 in the Projects folder in Blackboard. Please study both algorithms and try them yourself on several examples by hand to see how they work. You will then need to formulate the algorithms to use for the project. You will of course have to explain the details in your report.

Additional Information

● All coding must be done in MATLAB and you are required to submit your MATLAB functions and m (or mlx)-files via the Blackboard  submission box.  Project reports in pdf form only should be submitted via the Turnitin submission box. Remember the Turnitin software will automatically scan reports for plagiarism.

● Please ask if you need help on any commands, or whether there are built-in command- s/functions to accomplish certain tasks (especially important if you think you have a good approach to the questions, but do not know the related commands).

● The default datatype is double (decimal number), and be aware of possible side efects when using the numbers as integers. Remember that the same question can be solved by diferent approaches, and the same approach can be implemented in diferent ways. All relevant commands should be covered during the lectures or tutorial exercises, but you are free to explore your own.  Make critical judgement to choose the best approach/implementation.

● Aim for efficiency of the code, which is an additional marking criteria, besides the generic rubric.  Although you only need to record the answer for the given input, make sure that the computational time or memory does not increase significantly with larger input parameters (these issues will be mentioned constantly during the class demonstrations).

● List the complete code of the whole code for solving the tasks at the end of each question, or in an appendix.  Make your source code more readable, by keeping the indentation and stylistic features, and can be copied from the electronic file.

● The results reported in your report must be reproducible from your codes. Remember that markers will be able to run the codes in case of any doubts and any inconsistencies between reported results and actual results from running codes will lead to reports being marked down. You will be marked down if no codes are submitted.

Guidelines for the report.

1. Have a look at the generic rubric and frequently asked questions, which is given on Blackboard in the Projects folder and about how your report will be marked. The rubric also describes the intended learning outcomes about what you are expected to achieve at the end.

2. Avoid copying (too many) sentences directly from the project description, and try to restate the problem with your own words or examples if possible.

3. You may use your report in the future as evidences of written work, so take it seriously.

4. Your target audience is a fellow student on your course: explain the questions so that the report can be understood without this project description and your approach can be implemented in another computer. The report should indicate to the reader how well you understand the problem and the approach you have taken, the validation and other checks that you made to ensure your results are credible.  Reports submitted containing codes only and with no explanations of how the problem was solved, will result in a failing mark, even though the codes may work perfectly well and give the correct answers.

5. Balance the explanation of the approach and the comments in the code. Avoid under- commenting and over-commenting.

6. Aim for precision and clarity of writing (discussed in Week 5).

7. Keep your page length not  exceeding eight A4 pages, with a font size no smaller than 11, and page margins no smaller than 2cm. There is no need for a title page for a relative short report like this.  If more  than  8 pages are submitted only the first 8 pages will be marked and the rest of the submission will be ignored.

8. Since there is no final exam, you are advised to spend at least 15 hours on each project.

9. The submission box (via Blackboard and Turnitin) for each project will be open two weeks before the deadline, and you are encouraged to submit an early draft to see how Turnitin works on Blackboard. Only your last submission will be marked. Anything submitted after the deadline (except for those with approved extensions) will be subject to late penalties. Any late penalty will be applied by the Teaching and Learning Support Office according to the Undergraduate Student Handbook, and any extension has to be approved from the Office too (not from the lecturer).






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