KTurtle/C3/Programming-Concepts/English-timed
From Script | Spoken-Tutorial
Revision as of 14:50, 18 September 2015 by Sandhya.np14 (Talk | contribs)
Time | Narration |
00:01 | Hello Everybody. |
00:03 | Welcome to this tutorial on Programming concepts in KTurtle. |
00:08 | In this tutorial, we will learn how to: |
00:12 | * Write a program in 'KTurtle' |
00:15 | * Use variables to store user input |
00:18 | * Use 'print' command to print on canvas |
00:22 | * Comment a line. |
00:24 | To record this tutorial, I am using:
|
00:37 | We assume that you have basic working knowledge of KTurtle. |
00:43 | If not, for relevant tutorials, please visit our website: http://spoken-tutorial.org |
00:49 | Before proceeding, we will discuss some basic information about KTurtle. |
00:55 | "Turtle" displayed on the canvas is called "sprite". |
01:00 | "Sprite" is a small image that moves around the screen. e.g. Cursor is a sprite. |
01:10 | "spritehide" command hides Turtle from canvas. |
01:15 | "spriteshow" command shows Turtle, if it is hidden. |
01:21 | "clear" command cleans all drawings from canvas. |
01:27 | In KTurtle, |
01:29 | "$" sign is a container of variables. |
01:34 | "*" (asterisk) is used for multiplication of two numbers. |
01:41 | "^" (caret) raises a power of the number. |
01:45 | "#" (hash) sign comments a line written after it. |
01:50 | "sqrt" is an inbuilt function to find square root of a number. |
01:58 | Let's open new KTurtle Application. |
02:02 | Click on Dash home >> Media Apps. |
02:07 | Under Type, choose Education and KTurtle. |
02:13 | KTurtle application opens. |
02:20 | We can also open KTurtle using terminal. |
02:24 | Press Ctrl+Alt+T simultaneously to open the terminal. |
02:30 | Type KTurtle and press Enter, 'KTurtle' Application opens. |
02:41 | Let me type and explain the program code. |
02:46 | Let me zoom into the program text, it may possibly be a little blurred. |
02:55 | #program to find square of a number. Press Enter. |
03:15 | "#" sign comments a line written after it. |
03:19 | This means, this line will not be executed while running the program. Press Enter. |
03:29 | reset |
03:30 | reset command sets Turtle to default position. Press Enter. |
03:38 | $i= ask within double quotes enter a number for i and click OK. |
03:58 | "$i" is a variable to store user input. |
04:03 | “ask” command asks for user input to be stored in variable. Press Enter. |
04:11 | “fontsize” space 28. |
04:17 | fontsize sets the font-size used by print. |
04:20 | fontsize takes number as input, set in pixels. |
04:27 | print $i*$i |
04:36 | print $i*$i calculates and prints square of a number. press Enter. |
04:45 | spritehide |
04:48 | spritehide hides Turtle from canvas. |
04:53 | Let us run the program now. |
04:56 | Click on the Run button on the toolbar to start execution of the code in the editor. |
05:03 | It shows a list of execution speeds. |
05:07 | Full speed (no highlighting and inspector) |
05:10 | Full speed,
slow, slower, slowest and step-by-step. |
05:17 | Let me run the code at slow speed. |
05:21 | An input bar appears. |
05:23 | Let's enter 15 for 'i' and click OK. |
05:29 | Square of '15' = 225 is displayed on the canvas. |
05:35 | Let's now learn to find nth power of a number through a program. |
05:42 | I already have program in a text editor. |
05:46 | Let me copy the program from text editor and paste it into KTurtle editor. |
05:56 | Please pause the tutorial here and copy the program into your KTurtle editor. |
06:03 | Let me zoom into the program text. |
06:07 | Explain the program. |
06:09 | # sign comments a line written after it. |
06:13 | reset command sets Turtle to default position. |
06:18 | $i and $n are variables to store user input. |
06:25 | “ask” command asks for user input to be stored in variables. |
06:31 | fontsize 28 sets the font size used by print. |
06:37 | Fontsize takes number as input, set in pixels. |
06:43 | print ($i^$n) calculates & prints nth power of a number. |
06:52 | spritehide hides Turtle from canvas. |
06:57 | Let's run the program. |
07:00 | Let's enter '5' for i, and click OK |
07:05 | Let's enter '4' for n, and click OK. 5^4=625 is displayed on canvas. |
07:18 | Next, let's use inbuilt “sqrt” function in a program to find square root of a number. |
07:27 | Let me copy the code from editor and paste it into KTurtle's editor. |
07:35 | Please pause the tutorial here and copy the program into your KTurtle editor. |
07:43 | Let me zoom the program text it may possibly be a little blurred. |
07:49 | Let me explain the code. |
07:52 | # sign comments a line written after it . |
07:57 | reset command sets Turtle to default position. |
08:02 | $i is a variable to store user input. |
08:07 | fontsize 28 sets the font size used by print. |
08:12 | print sqrt $i prints square root of a number. |
08:19 | spritehide hides Turtle from canvas. |
08:24 | Let me run the program now. |
08:28 | Let's enter '169' for i, and click OK |
08:34 | square root of 169 = 13, is displayed on canvas. |
08:39 | Let's run again, |
08:42 | let's enter -169 for i and click OK. |
08:49 | If we enter negative number, output is 'nan' it means not a number. |
08:56 | As square root of negative number is not a real number. |
09:02 | let's next evaluate Cube root of a positive number through a program. |
09:08 | Let me copy the program from editor and paste it into KTurtle's editor. |
09:19 | Please pause the tutorial here and copy the program into your KTurtle editor. |
09:25 | Let me zoom into the program text it may possibly be a little blurred. |
09:31 | Let me explain the program. |
09:35 | # sign comments a line written after it. |
09:38 | Please note this is a single line comment. |
09:42 | Every comment must be preceded by a # sign. |
09:48 | reset command sets the Turtle to default position. |
09:53 | $i and $C are variables to store user input. |
09:59 | $C=($i)^(1/3) calculates cube root of a number. |
10:07 | fontsize 28 sets the font size used by print. |
10:13 | print $C prints cube root of a number. |
10:19 | spritehide hides Turtle from canvas. |
10:23 | Let's Run the program |
10:27 | Let's enter 343 for i and click OK |
10:34 | cube root of 343 = 7 is be displayed on canvas. |
10:40 | With this we come to the end of this tutorial. |
10:43 | let us summarize. |
10:46 | In this tutorial, we have learnt |
10:49 | Programming concepts |
10:52 | Use of sqrt function |
10:55 | Use of print command |
10:57 | Using KTurtle editor and canvas. |
11:02 | As an assignment, I would like you to use basic programming commands to find ... |
11:08 | Cube of a number |
11:11 | nth root of a number |
11:15 | Watch the video available at this URLhttp://spoken-tutorial.org/What is a Spoken Tutorial |
11:19 | It summarises the Spoken Tutorial project |
11:22 | If you do not have good bandwidth, you can download and watch it |
11:27 | The Spoken Tutorial Project Team : |
11:29 | Conducts workshops using spoken tutorials |
11:32 | Gives certificates to those who pass an online test |
11:35 | For more details, please write to contact@spoken-tutorial.org |
11:44 | Spoken Tutorial Project is a part of the Talk to a Teacher project. |
11:48 | It is supported by the National Mission on Education through ICT, MHRD, Government of India. |
11:55 | More information on this Mission is available at this http://spoken-tutorial.org/NMEICT-Intro ]. |
11:59 | This is Madhuri Ganpathi, from IIT Bombay signing off.Thank you for joining. |
Contributors and Content Editors
Kaushik Datta, Madhurig, PoojaMoolya, Pratik kamble, Sandhya.np14, Sneha