Difference between revisions of "Learn Geogebra"

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{{Template:Book-sidebar}}
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<div class="noprint" style="float:right; border:1px solid blue;width:300px;background-color:#F5F5F5;padding:2px;">
=Introduction=
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{| cellspacing="0"
Geogebra is an interactive geometry , algebra, statistics and calculus application, intended for learning and teaching mathematics from primary school to university level. Geogebra’s tools enable us to produce new objects using pointing device. They can be activated by clicking on the corresponding buttons of the Toolbar. This application is free and licensed under the GNU Public License.
+
| [[File:Book.jpg|none|80px|Book image]]
==ICT Competency==
+
| style="padding-left:2px;" | Go to <br /> [[ICT_student_textbook/Explore_maths_with_Geogebra_level_1|ICT student textbook]]
 
+
[[ICT teacher handbook]]
 
+
|}</div>
==Educational application and relevance==
 
Geogebra is an outstanding technology tool that improves mathematics education.Through simulations, students create concrete representations of geometric theorems instead of abstractly configuring images in the mind. Geogebra is an exciting, Web based application that eliminates concept of memorization. In addition to this, students transform from passive classroom observers to active, excited participants. Meaningful learning occurs as the students manipulate and test data with-in  the Geogebra.
 
 
 
==Version==
 
The GEOGEBRA version  -  5.0.236.0-3D…..
 
 
 
Geogebra is part of the Ubuntu distribution (in the training). This can be opened from Applications  → Education → Geogebra. 
 
==Configuration==
 
There is no specific configuration for this tool or application.
 
 
 
==Overview of Features==
 
The tool has several features...like….,
 
# We can create special .ggb files which can be used to apply a style to other files.
 
# We can load a .ggb file into another.
 
# Opacity for lines and perimeters of shapes.
 
# Insert image tools now supports SVG files.
 
# This is a simulation as well as graphic plotter
 
 
 
==Other similar applications==
 
==Development and community help==
 
Markus Hohenwarter et al <br>
 
[https://www.geogebra.org/IGI/ The International GeoGebra Institute (IGI)]
 
 
 
=Working with the application=
 
==Functionalities==
 
  
 +
===Introduction===
 +
====Basic information====
 
{| class="wikitable"
 
{| class="wikitable"
 
|-
 
|-
| style="width: 50%;" |[[File:Geogebra 1 Main Window.png|450px]]
+
|ICT Competency
| style="width: 50%;" |[[File:Geogebra 2 New point.png|450px]]
+
|This is a tool for creating resources for mathematics and is an interactive application that combines geometry and algebra to create visual representations of different concepts in algebra and geometry.  
|-
 
| style="width: 50%;" |Step 1 - In GeoGebra you can animate the geometric figure you have drawn and dynamically  see how some values like length, area, perimeter of a figure changes, see the same figure in different ways. For detailed resources on how to learn Geogebra you can click on http://karnatakaeducation.org.in/KOER/en/index.php/Portal:ICT_Literacy. 
 
| style="width: 50%;" |Step 2 - Drawing  points, line segment and rays
 
Select Point Tool, and click anywhere on the drawing point to plot six points A, B, C, D, E, F.
 
|-
 
| style="width: 50%;" |[[File:Geogebra 3 segment between Two points.png|450px]] [https://commons.wikimedia.org/wiki/File:Geogebra_3_segment_between_Two_points.png Image]
 
| style="width: 50%;" |[[File:Geogebra 4 Ray through two points.png|450px]] [https://commons.wikimedia.org/wiki/File:Geogebra_4_Ray_through_two_points.png Image]
 
|-
 
| style="width: 50%;" |Step 3 -
 
Drawing line segments and lines. Select '''Segment between two points''' tool, click  "o" on point  A and then point B.
 
Select Line through two points tool, click on point C and then point D.
 
| style="width: 50%;" |Step 4 -  Select '''Ray through two points''' tool, click on point E and the point F.
 
|-
 
| style="width: 50%;" |[[File:Geogebra 5 Construction of line.png|450px]] [https://commons.wikimedia.org/wiki/File:Geogebra_5_Construction_of_line.png Image]
 
| style="width: 50%;" |[[File:Geogebra 6 Construction a parallel line.png|450px]] [https://commons.wikimedia.org/wiki/File:Geogebra_6_Construction_a_parallel_line.png Image]
 
|-
 
| style="width: 50%;" |Step 5 -
 
Can you describe in your own words the difference between a segment, line and ray?  Also see the algebra view and observe the equations of the line b and ray c.  The line segment a is represented in the algebra view as a = 2.83, where 2.83 is the length of the segment.
 
| style="width: 50%;" |Step 6 - ii. Drawing a parallel line
 
iii. Select Point Tool and click anywhere on the drawing point to plot three points A,B, C.
 
iv. Select Line through two points tool, click on point A and then point B.
 
v. Select '''Parallel Line''' tool, click on point C first. Then click on line AB.  Now use the Move Tool and move points A, B and C. What do you observe? Describe it. 
 
Next with Move Graphics view  tool and move the drawing pad. Do the two lines ever  meet?
 
|-
 
| style="width: 50%;" |[[File:Geogebra 7 Rotate a ray.png|450px]] [https://commons.wikimedia.org/wiki/File:Geogebra_7_Rotate_a_ray.png Image]
 
| style="width: 50%;" |[[File:Geogebra 8 Segment with Given Length from Point.png|450px]] [https://commons.wikimedia.org/wiki/File:Geogebra_8_Segment_with_Given_Length_from_Point.png Image]
 
|-
 
| style="width: 50%;" |Step 7 - Rotate a ray
 
Draw line segment AB of any length (Segment between two points tool).
 
Select the Ray Through two points tool, click on point A, then select another point C on the drawing pad as shown in the figure.
 
Select the '''Angle''' tool, as seen in the figure and click on points B, then A and finally C. You will see an angle measure. Click on the Move tool and move point C.
 
| style="width: 50%;" |Step 8 - Start your drawing by using the tool '''Segment with Given Length from Point.'''
 
|-
 
| style="width: 50%;" |[[File:Geogebra 9 Segment with Given Length from Point.png|450px]] [https://commons.wikimedia.org/wiki/File:Geogebra_9_Segment_with_Given_Length_from_Point.png Image]
 
| style="width: 50%;" |[[File:Geogebra 10 perpendicular line through point.png|450px]] [https://commons.wikimedia.org/wiki/File:Geogebra_10_perpendicular_line_through_point.png Image]
 
|-
 
| style="width: 50%;" |Continue
 
| style="width: 50%;" |Step 10 - Continue by drawing the right angle. Do this by drawing a perpendicular line through point A.  Choose the '''perpendicular line''' tool, click on point A first and then on the line.
 
|-
 
| style="width: 50%;" |[[File:Geogebra 11 perpendicular line through point A.png|450px]]
 
| style="width: 50%;" |[[File:Geogebra 12 Circle with Center and Radius.png|450px]]
 
|-
 
| style="width: 50%;" | Continue
 
| style="width: 50%;" |Step 11- To mark the third corner of the triangle you use one of the circle tools, '''Circle with Centre and Radius'''.
 
|-
 
| style="width: 50%;" |[[File:Geogebra 13 Numbers of Radius.png|450px]]
 
| style="width: 50%;" |[[File:Geogebra 14 Intersect Two Objects.png|450px]]
 
|-
 
| style="width: 50%;" |Step 12 - Click on the point B and fill in the length of the hypotenuse as radius.
 
| style="width: 50%;" |Step 13 - Choose the tool '''Intersect Two Objects''', click on the circle and the perpendicular line. The point in the intersection is the third corner of the triangle.
 
|-
 
| style="width: 50%;" |[[File:Geogebra 15 Polygon.png|450px]]
 
| style="width: 50%;" |[[File:Geogebra 16 Show Object.png|450px]]
 
 
|-
 
|-
| style="width: 50%;" |Continue
+
|Educational application and relevance
| style="width: 50%;" |Step 15 - The perpendicular line and the circle, even the points do not need to be visible or seen now, you only want to show the triangle. Hide an object by right-clicking the object and uncheck '''Show Object''' by clicking on it.  
+
|It is possible to create drawings and animations using Geogebra to explain different concepts in geometry and algebra.  It can be used by teachers as an interactive construction board in the classroom or as stand alone resource for demonstration and student learning.  It is also possible to use Geogebra for assessments.
 
|-
 
|-
| style="width: 50%;" |[[File:Geogebra 17 Show Label.png|450px]]
+
|Version
| style="width: 50%;" |[[File:Geogebra 18 Object Properties.png|450px]]
+
|Geogebra 5.0.180.0-3D
 
|-
 
|-
| style="width: 50%;" |Step 16 - The lengths of the sides in the triangle can be shown. Right-click one of the sides and choose Object Properties in the menu which shows up. Check the '''Show Label''' field and choose  Value from the drop down list.  
+
|Other similar applications
| style="width: 50%;" |Continue
+
|[[wikipedia:DrGeo|Dr.Geo]], [[wikipedia:CaRMetal|CarMetal]]
 
|-
 
|-
| style="width: 50%;" |[[File:Geogebra 19 Area of the angle.png|450px]]
+
|The application on mobiles and tablets
| style="width: 50%;" |[[File:Geogebra 20 Angle Moving.png|450px]]
+
|Geogebra app is available for the Android platform as well as iPad.
 
|-
 
|-
| style="width: 50%;" |Step 17 - To show the size of the angles use the Angle tool. Click on each vertex of the triangle. The order in which you click the vertices must be in the clock wise direction.  In this figure click in this order BAC, CBA,  and ACB. 
+
|Development and community help
| style="width: 50%;" |Step 18 - Click on '''Area tool''' and then click on the polygon. <br>
+
|Markus Hohenwarter et al, http://dev.geogebra.org/svn/
Change the shape of the triangle by moving the points you are able to move (use the Move tool).
+
[http://geogebra.org/ Geogebra]
 
|}
 
|}
 +
====Overview of features====
 +
Geogebra allows you to make dynamic sketches of different geometric shapes and solids, with a 2D and 3D window.  With its graphics view, spreadsheet view and algebra view it allows an interactive learning possibility for combining algebra, geometry and statistics.  Geogebra allows export as image or GIF files and publishing as html pages.
 +
 +
====Installation====
 +
#The application is part of the Ubuntu custom distribution.
 +
#In case you do not find it on your computer, you can install by typing <code>Geogebra</code> on top search bar in Software Centre.
 +
#If you would like to install through the terminal follow these steps below:
 +
##Open terminal by clicking Applications->System Tools->Terminal or through Keyboard shortcut <code>Ctrl+Alt+T</code>
 +
##In the terminal window, type below command and press enter to start the installation by providing your machine password:
 +
##<code>sudo apt-get install geogebra</code>
 +
 +
===Working with the application===
 +
====Getting familiar with the Geogebra interface====
 +
<gallery mode="packed" heights="250px" caption="Geogebra interface">
 +
File:Geogebra1.png|Opening Geogebra
 +
File:Geogebra2a.png|Defining the graphical interface
 +
File:Geogebra2.png|Three panes in Geogebra window
 +
</gallery>
 +
The above images show you the Geogebra window.  After opening Geogebra, you will see the application window as in the second image.  The user can define the graphics view in terms of the axes, the grid, scale of the axes, etc.  From the View option you can define the number of views you want to see - in this third image, three views are shown - the algebra view, the graphics view and the 3D view.  In this handbook, we will primarily discuss the 2D window.
 +
 +
====Using the tool bar - basic ====
 +
In this section you will be introduced to the basic constructions available on the tool bar.
 +
Moving, lines and segments, parallel, circles, polygons
 +
<gallery mode="packed" heights="250px" caption="Introduction to the tool bar">
 +
File:Geogebra3.png|Moving objects
 +
File:Geogebra4.png|Moving by rotating around a point
 +
</gallery>
 +
<gallery mode="packed" heights="250px">
 +
File:Geogebra 2 New point.png|Plotting points menu
 +
File:Geogebra 3 segment between Two points.png|Lines and segment menu
 +
File:Geogebra_5_Construction_of_line.png|Drawing segments and lines
 +
</gallery>
 +
<gallery mode="packed" heights="200px">
 +
File:Geogebra 6 Construction a parallel line.png|Drawing parallel lines
 +
File:Geogebra 12 Circle with Center and Radius.png|Circles
 +
File:Geogebra6_circle.png|Circle with centre and given radius
 +
</gallery>
 +
The Geogebra tool bar is very versatile - the construction follows the processes that we would normally follow in paper and pen construction. Some six important categories in the tool bar are discussed below:
 +
#Moving objects:Geogebra allows you to move object constructed freely by dragging the object.  You can also select an object and move it by rotating aroung a point.
 +
#Plotting points: There are different ways of plotting points on the Geogebra graphics pad.  You can plot a point anywhere on the graphics view - this is a free point. You can also plot on an object or as an intersection of two objects; in both the cases the point is a dependent object.
 +
#Drawing lines: The menu for lines and segments also allows multiple constructions - segments,lines, rays and vectors
 +
#Drawing multiple lines: Multiple lines can also be drawn in Geogebra. Parallel lines, perpendicular lines, angle bisectors and perpendicular bisectors can be drawn.
 +
#Drawing circles - You can draw circle, circular arcs and sectors using this tool.
 +
 +
====Using the tool bar - advanced features====
 +
<gallery mode="packed" heights="250px" caption="More features of the tool bar">
 +
File:Geogebra7.png|Creating a polygon
 +
File:Geogebra8.png|Adding a textbox
 +
File:Geogebra8_angle.png|Measuring angles in a polygon
 +
File:Geogebra8_length.png|Measuring segment lengths
 +
File:Geogebra 9 rotation.png|Rotating and reflecting -1
 +
File:Geogebra 10.png|Rotating and reflecting - 2
 +
File:Geogebraimageinsert.png|Inserting an image
 +
File:Geogebraimageinsert2.png|Choosing an image to insert
 +
</gallery>
 +
The above set of images show how to work with some advanced features in the Geogebra tool bar.
 +
#Creating a polygon: The first image shows how to create a polygon by marking the vertices (by plotting points) and completing the polygon.
 +
#Adding a textbox:You can add a text box in the Geogebra file as shown here by clicking on the textbox and clicking anywhere on the graphics view. You will get a box for typing the text you would like to add. Once the text is entered, as shown in the second image, you can right click on the text and after going into Object Properties,format it.
 +
#Angle measurement: The third image shows you how to mark and measure angles.  The Geogebra angle tool uses the convention of measuring angles counterclockwise. You can also construct angles with given measure.
 +
#Length measurement: You can also measure sides and lengths as shown in the fourth image.  Once you have measured angles and sides, you can drag and move the measurements and lebel to be shown where you would like them to be.  This drop down menu also has an option to calculate area.
 +
#Rotation and reflection: As you explore symmetry and congruence, rotating and reflecting an object will be useful to do.  In the first of the set of two images, "Rotating and reflecting", the polygon has been rotated by 45 degrees counterclockwise, at a vertex.  As in the case of angle measurement, the rotation can be specified to be clockwise or counter clockwise.  In the second image the rotated polygon is reflected along a side.
 +
#Inserting image: In the last set of images you see an image being inserted in the Geogebra graphics view. Once you click on insert image, you need to click anywhere on the graphics view to specify the point where the image is to be inserted.  Once you click on that, a dialog box will open from where you can choose the image to be inserted. 
  
==File formats for creation==
+
====Using the input bar====
 +
<gallery mode="packed" heights="250px" caption="Using the input bar">
 +
File:Geogebra_11_input_bar.png
 +
File:Geogebra_12_defining_angle.png
 +
</gallery>
 +
In Geogebra, all the constructions you can do using the tool bar can also be done with definitions on the input bar.  The input bar also follows the same mathematical conventions used in the tool bar.
 +
#Input bar for sketches: The first image shows defining polygon with a set of points
 +
#Input bar for calculations: The second image shows how to use the input bar for defining variables and values for parameters.  You can also use this space as a calculator for values and properties being shown in the construction.  In this image the angle sum of the quadrilateral is being calculated in the input bar.
  
==Saving the file==
+
====Using the tool bar - slider====
Click File > Save to save the file. It will be saved in .ggb file.
+
One of the powerful features of Geogebra is the dynamic feature. You can vary parameters of the shape that you want to animate and see how properties change.
 +
<gallery mode="packed" heights="250px" caption="Using the slider">
 +
File:Geogebra_13_side_slider.png|Defining the slider
 +
File:Geogebra_15a.png|Polygon with a slider for number of sides
 +
#The first image shows you how to define a slider.  In the slider dialog box, you can define the name, the range of values for the parameter and the increment to be used. You can either define a slider of sides or angles.
 +
#The second image shows the construction of a polygon with a slider defined for the number of vertices.
 +
</gallery>
  
==Export and publishing files==
+
====3D view====
Like in most applications, a file can be exported to a PNG format.
+
<gallery mode="packed" heights="250px" caption="Using the 3D window">
 +
File:Geogebra16.png|3D view
 +
File:Geogebra17_extrusion.png|Extruding a prism from the polygon
 +
</gallery>
 +
#The 3D window allows you to visualize the geometry along 3-axes. You can rotate the graphics view using the same icon that you used for the Move graphics view.  You can independently work on the 2D and 3D windows and the construction on one window will get reflected in the other.
 +
#The 3D window allows you to construct solid figures by extruding from a 2-dimensional shapes.  Other features include construction of a plane, rotation, reflection., etc.  The slider defined in the 2D window will help animate in the 3D window also.
  
==Advanced features==
+
==== Using Geogebra to make a given sketch ====
 +
You have learnt many functionalities.  An example of how to use these different tools to create a Geogebra construction can be found [[Learn creating a construction with Geogebra|here]].
  
=Installation=
+
====Saving and exporting====
{| class="wikitable"
+
#You can save Geogebra file from the File menu.
|-
+
#You can also export the Geogebra file as an image (.png format) or as an animated graphic (.gif format).
! Method of installation !! Steps
+
#If you export the Geogebra file as html you can publish it on the repository for Geogebra files.
|-
 
| From Ubuntu software Centre || Steps - Applications → Ubuntu Soft-ware centre → search Geogebra → Install.
 
|-
 
| From Terminal || Steps - Applications → Accessories → Terminal.
 
Open terminal (Ctrl+Alt+T) and then type below command
 
“sudo apt-get install Geogebra”
 
Press Enter key and it will ask your Ubuntu password, type your Ubuntu password and then press “Enter”.
 
It will will show how space it will from storage space and some other details, again press “Enter” key.
 
|-
 
| From the web || Steps - Web download , Web based registration
 
|-
 
| Web based registration || Steps
 
|}
 
  
=The application on mobiles and tablets=
+
====Advanced features====
Geogebra can also be downloaded for the mobile from [https://play.google.com/store/apps/details?id=org.geogebra.android&utm_source=Download%20page&utm_medium=Website&utm_campaign=Android%20App%20for%20Phones Google Playstore].
+
# Creating your own tool in Geogebra
 +
# Making three dimensional animations
 +
# Exporting Geogebra pages as html to add to the repository of Geogebra materials
  
=Ideas for resource creation=
+
===Ideas for resource creation===
 +
# Geogebra sketches for demonstrating different problems in geometry
 +
# Geogebra can be combined with [[Learn Record My Desktop|screencast recording]] to create a video recording of a lesson with a Geogebra file; this can be used for students' self learning as well.
  
=References=
+
===References===
 
#[https://www.geogebra.org/ Geogebra Web page]
 
#[https://www.geogebra.org/ Geogebra Web page]
 
#[https://en.wikipedia.org/wiki/GeoGebra Wikipedia]
 
#[https://en.wikipedia.org/wiki/GeoGebra Wikipedia]
 +
#[http://karnatakaeducation.org.in/KOER/en/index.php/Portal:ICT_Literacy KOER]
  
 
[[Category:Explore an application]]
 
[[Category:Explore an application]]

Revision as of 10:10, 3 April 2017

Book image
 Go to
ICT student textbook

ICT teacher handbook

Introduction

Basic information

ICT Competency This is a tool for creating resources for mathematics and is an interactive application that combines geometry and algebra to create visual representations of different concepts in algebra and geometry.
Educational application and relevance It is possible to create drawings and animations using Geogebra to explain different concepts in geometry and algebra. It can be used by teachers as an interactive construction board in the classroom or as stand alone resource for demonstration and student learning. It is also possible to use Geogebra for assessments.
Version Geogebra 5.0.180.0-3D
Other similar applications Dr.Geo, CarMetal
The application on mobiles and tablets Geogebra app is available for the Android platform as well as iPad.
Development and community help Markus Hohenwarter et al, http://dev.geogebra.org/svn/

Geogebra

Overview of features

Geogebra allows you to make dynamic sketches of different geometric shapes and solids, with a 2D and 3D window. With its graphics view, spreadsheet view and algebra view it allows an interactive learning possibility for combining algebra, geometry and statistics. Geogebra allows export as image or GIF files and publishing as html pages.

Installation

  1. The application is part of the Ubuntu custom distribution.
  2. In case you do not find it on your computer, you can install by typing Geogebra on top search bar in Software Centre.
  3. If you would like to install through the terminal follow these steps below:
    1. Open terminal by clicking Applications->System Tools->Terminal or through Keyboard shortcut Ctrl+Alt+T
    2. In the terminal window, type below command and press enter to start the installation by providing your machine password:
    3. sudo apt-get install geogebra

Working with the application

Getting familiar with the Geogebra interface

  • Geogebra interface

  • Opening Geogebra

  • Defining the graphical interface

  • Three panes in Geogebra window

The above images show you the Geogebra window. After opening Geogebra, you will see the application window as in the second image. The user can define the graphics view in terms of the axes, the grid, scale of the axes, etc. From the View option you can define the number of views you want to see - in this third image, three views are shown - the algebra view, the graphics view and the 3D view. In this handbook, we will primarily discuss the 2D window.

Using the tool bar - basic

In this section you will be introduced to the basic constructions available on the tool bar. Moving, lines and segments, parallel, circles, polygons

  • Introduction to the tool bar

  • Moving objects

  • Moving by rotating around a point

  • Plotting points menu

  • Lines and segment menu

  • Drawing segments and lines

  • Drawing parallel lines

  • Circles

  • Circle with centre and given radius

The Geogebra tool bar is very versatile - the construction follows the processes that we would normally follow in paper and pen construction. Some six important categories in the tool bar are discussed below:

  1. Moving objects:Geogebra allows you to move object constructed freely by dragging the object. You can also select an object and move it by rotating aroung a point.
  2. Plotting points: There are different ways of plotting points on the Geogebra graphics pad. You can plot a point anywhere on the graphics view - this is a free point. You can also plot on an object or as an intersection of two objects; in both the cases the point is a dependent object.
  3. Drawing lines: The menu for lines and segments also allows multiple constructions - segments,lines, rays and vectors
  4. Drawing multiple lines: Multiple lines can also be drawn in Geogebra. Parallel lines, perpendicular lines, angle bisectors and perpendicular bisectors can be drawn.
  5. Drawing circles - You can draw circle, circular arcs and sectors using this tool.

Using the tool bar - advanced features

  • More features of the tool bar

  • Creating a polygon

  • Adding a textbox

  • Measuring angles in a polygon

  • Measuring segment lengths

  • Rotating and reflecting -1

  • Rotating and reflecting - 2

  • Inserting an image

  • Choosing an image to insert

The above set of images show how to work with some advanced features in the Geogebra tool bar.

  1. Creating a polygon: The first image shows how to create a polygon by marking the vertices (by plotting points) and completing the polygon.
  2. Adding a textbox:You can add a text box in the Geogebra file as shown here by clicking on the textbox and clicking anywhere on the graphics view. You will get a box for typing the text you would like to add. Once the text is entered, as shown in the second image, you can right click on the text and after going into Object Properties,format it.
  3. Angle measurement: The third image shows you how to mark and measure angles. The Geogebra angle tool uses the convention of measuring angles counterclockwise. You can also construct angles with given measure.
  4. Length measurement: You can also measure sides and lengths as shown in the fourth image. Once you have measured angles and sides, you can drag and move the measurements and lebel to be shown where you would like them to be. This drop down menu also has an option to calculate area.
  5. Rotation and reflection: As you explore symmetry and congruence, rotating and reflecting an object will be useful to do. In the first of the set of two images, "Rotating and reflecting", the polygon has been rotated by 45 degrees counterclockwise, at a vertex. As in the case of angle measurement, the rotation can be specified to be clockwise or counter clockwise. In the second image the rotated polygon is reflected along a side.
  6. Inserting image: In the last set of images you see an image being inserted in the Geogebra graphics view. Once you click on insert image, you need to click anywhere on the graphics view to specify the point where the image is to be inserted. Once you click on that, a dialog box will open from where you can choose the image to be inserted.

Using the input bar

  • Using the input bar
  • Geogebra 11 input bar.png
  • Geogebra 12 defining angle.png

In Geogebra, all the constructions you can do using the tool bar can also be done with definitions on the input bar. The input bar also follows the same mathematical conventions used in the tool bar.

  1. Input bar for sketches: The first image shows defining polygon with a set of points
  2. Input bar for calculations: The second image shows how to use the input bar for defining variables and values for parameters. You can also use this space as a calculator for values and properties being shown in the construction. In this image the angle sum of the quadrilateral is being calculated in the input bar.

Using the tool bar - slider

One of the powerful features of Geogebra is the dynamic feature. You can vary parameters of the shape that you want to animate and see how properties change.

  • Using the slider

  • Defining the slider

  • Polygon with a slider for number of sides

3D view

  • Using the 3D window

  • 3D view

  • Extruding a prism from the polygon

  1. The 3D window allows you to visualize the geometry along 3-axes. You can rotate the graphics view using the same icon that you used for the Move graphics view. You can independently work on the 2D and 3D windows and the construction on one window will get reflected in the other.
  2. The 3D window allows you to construct solid figures by extruding from a 2-dimensional shapes. Other features include construction of a plane, rotation, reflection., etc. The slider defined in the 2D window will help animate in the 3D window also.

Using Geogebra to make a given sketch

You have learnt many functionalities. An example of how to use these different tools to create a Geogebra construction can be found here.

Saving and exporting

  1. You can save Geogebra file from the File menu.
  2. You can also export the Geogebra file as an image (.png format) or as an animated graphic (.gif format).
  3. If you export the Geogebra file as html you can publish it on the repository for Geogebra files.

Advanced features

  1. Creating your own tool in Geogebra
  2. Making three dimensional animations
  3. Exporting Geogebra pages as html to add to the repository of Geogebra materials

Ideas for resource creation

  1. Geogebra sketches for demonstrating different problems in geometry
  2. Geogebra can be combined with screencast recording to create a video recording of a lesson with a Geogebra file; this can be used for students' self learning as well.

References

  1. Geogebra Web page
  2. Wikipedia
  3. KOER
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