Anne Dawson: CSCI120A_LAB2_SP05.htm   

 

Last updated: Wednesday 19th January 2005, 6:05 PT

 

This document is subject to change without notice.

 

Please report any errors or omissions in this document:

adawson@coquitlamcollege.com

 

Special instructions:  For this assignment you may work in teams of 2, or alone.  This lab is due at the end of the lab session.

 

 

CSCI120A

 

Introduction to Computer Science and Programming

Spring 2005

Lab Assignment 2

Specification:

Calculation of hypotenuse, area and circumference of a right angled triangle with proof of Pythagorean theorem.

Step 1

 

Study the following:

 

Pythagorean Theorem

Let's build up squares on the sides of a right triangle. Pythagoras' Theorem then claims that the sum of (the areas of) two small squares equals (the area of) the large one.  In algebraic terms, a² + b² = c² where c is the hypotenuse while a and b are the sides of the triangle.

Figure 1.

 

The theorem is of fundamental importance in the Euclidean Geometry where it serves as a basis for the definition of distance between two points.

 

The hypotenuse of a right triangle is side c (the longest of the three sides).

The circumference of the triangle is a + b + c.

The area of the triangle is (a * b) / 2.

 

Your program must accept vales for a + b then calculate the following values of the triangle:

 

1.  the hypotenuse

2.  the circumference

3.  the area

 

In addition:

 

4.  Your program should also show that the sum of the areas of the two small   

      squares (see Figure 1) equals the area of the large square.

 

 

Step 2

 

Design an algorithm (the steps to solve the problem). You should have the algorithm approved by your instructor before going on to the next step.

The following web page will help you design your algorithm and pseudocode:

http://www.coquitlamcollege.com/adawson/Pseudocode.htm

 

Step 3

 

Development the pseudocode from your algorithm.

The following web page will help you design your algorithm and pseudocode:

http://www.coquitlamcollege.com/adawson/Pseudocode.htm

 

Step 4

 

Using your pseudocode as a guide, implement your program in the Python language. Use the IDLE GUI to edit and run your program:

http://www.coquitlamcollege.com/adawson/Python_Editor_IDLE.htm

 

Your program should start with a comment block that contains the following information:

 

#  File:       lab2.py

#  Purpose:    Calculations using the Pythagorean theorem

#  Programmer: [your name]   

#  Partner:    [your partner's name]

#  Course:     CSCI120A

#  Date:       Wednesday 19th January 2005

#  Test data:

 

Please note: any lines in a Python program that start with the # symbol are known as comments. Comments are ignored when the program runs, but are useful when we read a program, because they supply information about the program.  They are always used at the top of a program to supply information about the purpose of a program, its file name, the programmer etc, as shown above. They are also used in the body of a program to explain parts of the program which may be hard to understand. Example programs in this course will demonstrate the correct use of comments. You are expected to supply the above set of comments (updated appropriately) for all of your lab and homework programming assignments.

 

Step 5

 

Test your program by running supplying your own test data. You should test your program with at least 3 sets of test data. Show your test data and results in comments at the top of your program.

 

Step 6

 

At the end of the class, save your program file (lab2.py) to your folder on the network in:

 

CSCI120A\Week03\Lab02

 

 

Program points will be based on the following marking scheme:

 

Marking Scheme

Category	Points	Description
Algorithm	15	An informal description of the steps that must be taken to solve the problem. ref: http://www.coquitlamcollege.com/adawson/Pseudocode.htm
Pseudocode	15	A formal description of the steps that must be taken to solve the problem. http://www.coquitlamcollege.com/adawson/Pseudocode.htm
Comments	10	The program should be commented as specified in this document.
Style	15	The source code should use meaningful variable names (identifiers).
Output	15	Screen prompts and results should be user-friendly.
Correctness	10	The program should output correct results.
Completeness	10	The program should be complete.
Test	10	Comments in the code explain how the code was tested.

 

 

Assignment Presentations :  In the next class, a random selection of lab assignment programs will be presented to the CSCI120A group.