Why Interactive White Boards are Used Ineffectively in Classrooms

Posted by David Wetzel

Interactive White Board

An interactive White Board (IWB) or SMART Board has the potential to deliver content better than traditional methods of teaching. Why? Because it provides multi-media functional interaction across audio, video, and computer media. It is also ideal for visual, auditory, and kinesthetic learners.

These qualities of an IWB also promote the dynamic delivery of content (if used to its full potential) in an engaging manner, which allows students to interact with science or math content their self. Examples include:

• data manipulation

• responding to data

• even creating data

So with all these attributes –

“How are interactive white boards unsuccessfully used in science and math classrooms?” For the most part – not effectively!

Ineffective Uses of IWBs

The following are examples of how interactive white boards are not used effectively in many science and math classrooms.

• Teacher Centered Instruction – common for teachers whose primary method of delivery is through lecture. Also, this is often a result of inadequate professional development.

• Videos and Images – an IWB is used as a replacement for a pull down projector screen to show videos.

• Web Connectivity – failure to use the connectivity of an IWB with the Internet to its fullest potential or not linking to the web at all.

• Canned Lessons – using canned lessons and activities provided by IWB producers and other sources which have simply converted traditional rote memorization lessons into IWB lessons.

Effective Uses of IWBs

The primary purpose of interactive white boards is – Interactivity between teachers and students with content!

The following are the six most common manipulations used for securing interactivity:

• Drag and Drop – where an on-screen item is moved for purposes of classification, processing, comparing items, ordering terms, testing hypotheses etc. These actions often cause other actions or expect further action or comments from students.

• Hide and Reveal – hiding and then opening a response once a student has understood an idea. This allows the scaffolding of ideas so conceptual understanding takes place.

• Movement or Animation – used to demonstrate principles and illustrate concept explanations using digital videos or images.

• Color, Shading and Highlighting – used for emphasizing similarities and differences, enhancing explanations, and allowing reinforcement through greater emphasis.

• Matching Items – examples include equivalent fractions, a straight line with its graph, an equation with its solution, chemical properties, physical properties, life cycles, and many more.

• Immediate Feedback – for teacher or student as consequence of one of the other five manipulations or assessment using Clickers.

More Professional Development: Solution to the Problem

Most teachers lack adequate professional development on how to create and find quality interactive lessons, along with how to integrate the technology effectively into classroom instruction. This is the huge contributing factor as to why IWBs or SMART Boards are used ineffectively in many classrooms.

Simply installing interactive white boards and saying use them is not the answer. Adequate professional development must be included with the installation. This is the primary reason why so many teachers become frustrated with the technology and are using them ineffectively in classrooms.

A self-assessment of IWB skills can provide teachers, professional development trainers, and administrators with the targeted goals for improving the interactivity of interactive white boards in the classrooms.

6 Tips and Tricks for Using Interactive White Boards

Posted by David Wetzel

Interactive whiteboards (IWB) allow science and math teachers to teach multi-sensory lessons, seamlessly jumping from one type of media to another. Interactive science or math lessons can easily integrate text, sound, video, and graphics based on the tactile nature of the IWB.

IWB Strategies

The following are six tips and tricks for interactive white board implementation in science and math.

1. Brainstorming – the advantage of using an IWB for brainstorming sessions or discovering prior knowledge and experiences (PKE) students have regarding specific science concepts. This strategy permits students to focus on brainstorming sessions instead of concentrating on recording information in notes.

One example - information written on the IWB about how algebra is used in everyday lives is saved. Files containing brainstorming sessions are uploaded to a class Wiki or Blog for student use during review sessions.

2. Interactive Lessons – math and science teachers can simultaneously access a number of real-time data and supporting websites for display on the IWB. This strategy supports groups working in web-based learning centers during data collection or problem solving activities.

One example – during a meteorology lesson on interpreting weather maps, students’ access real-time data from cities around the country or world to make weather predictions. Next students check their predictions using web cam images from selected areas to determine if they are correct.

3. Problem-Based Learning in Science and Math – students complete a problem-based learning activity and save their work in their section of the class Wiki or in Google Docs for presentation to the class.

One example – forensic science activity where students’ play detectives attempting to solve a crime. Fingerprints of suspects are displayed on the IWB and a fingerprint from the crime scene is made 50 percent transparent for overlay suspect finger prints. Students determine which suspect’s fingerprint matches the fingerprint collected from the crime scene.

4. Observing Animal Behavior – using web cams are used to observe animal behavior in the wild. The behaviors can be recorded and played back for annotation and editing as part of class or group projects in comparing behaviors of several animals.

One example – observing the real-time behavior of eaglets in their nests as they compete and interact with each other. Students then compare web-cam observations of birds at the National Zoo in Washington, DC.

5. Mind Mapping – similar to brainstorming, science or math teachers can lead their students through a class discussion on a specific science concept and develop a mind map of information on an IWB. The mind map can then be saved for uploading to the class Wiki.

One example – students create a class mind map about geometric shapes and at the end of class for students to record the mind map in their notebooks is not required.

6. Discussing Science and Math Issues – interactive websites, real-time data websites, and other web-based resources can be used as a class for comparing and contrasting differing points of view regarding a scientific concept.

One example – focusing a discussion on what is causing bees to disappear in this country and their impact on the environment. Students research online resources to support their points of view and share these sources in when comparing and contrasting the issue.

These six tips and tricks for using interactive white boards and other IWB techniques provide the catalyst for engaging students in web-based research and study, as they use real-time data sources or online resources for carrying out science or math investigations.