Tag: EdTech

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EdTech Vs. Instructional Tech

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Educational technology is best defined as  technological tools and software to which are integrated into learning environments.  As someone who has studied and worked within this area, I can attest that the definition varies per environment.  Within the field of education, educational technology is used for classroom instruction and planning by educators, administrators and designers.  Educational technology consists of online software such as Kahoot, Wikipedia, Screen-Cast-O-Matic, Google Classroom, and Scratch.  Each of the mentioned platforms can be integrated into curriculum for educational and facilitation purposes of the instructor.  Over the years, the number of online software and web based platforms steadily sees increase, due to the world wide web steadily increasing.  

Instructional technology refers to the scientific based practice of course design.  Foundationally, instructional technology is similar to educational technology, with the relevance of integrating technology into learning content. However, the platforms vary due to the need for content creation, learner assessments, collaboration and platforms needing cater to these demands of the field.  Some of the common platforms used within the instructional technology field include Google Classroom, Moodle, and TalentLMS. 

There are some similarities in the two terms as both rely on student learning styles for direction with technological integrations and curriculum planning.  These learning styles often include the well known terms such as audio, spatial, visual, auditory, and physical.  In terms of students with disabilities, both terms seek to differentiate instruction using content models and technological tools (physical and web based) for instruction.   “Teachers that utilize digital technologies and acquire a higher perception of learning effectiveness of digital distance learning are significantly more likely to use web-based teaching technologies” (Dincher and Wagner, 2021). Instructional technologists also seek to utilize additional models into the instruction including Merrill’s Principles and the ADDIE Model. The Addie Model consists of Analysis, Development, Design, Implement, and Evaluate.  Merrill’s Principles seeks to engage learners into real world problems through activation of prior knowledge, demonstration and activation of new knowledge and integration into the learner’s real world. “Empathetic design is the ability for the designer to predict the cognitive and emotional experience of learners as they engage with the design product and process. It aims to center sensitivity toward learners, and the design process as a whole, which suggests potential application in educational settings” (Mehta & Gleason, 2021).  One caveat to instructional technology is that educational technology can be integrated into instructional technology platforms to increase learner engagement and meet different learning styles.  

I have only been in the field of educational technology for about 4 years and I have witnessed new platforms rolling out on a consistent basis. As long as the internet continues to serve as an open platform welcoming collaborative efforts of its users, educational and instructional technology tools, software, and web based platforms will continue to evolve.  “This change is facilitated by advancements in educational technology, such as vodcasting, screen-casting, and e-learning portals. Instructors are now able to deliver lectures before class meetings via instructional videos” (Chung, 2018).  

Dincher, M., & Wagner, V. (2021). Teaching in times of COVID-19: Determinants of teachers’ educational technology use. Education Economics, 29(5), 461-470. https://doi.org/10.1080/09645292.2021.1920000

Chung, K. L. (2018). Grounding the flipped classroom approach in the foundations of educational technology. Educational Technology, Research and Development, 66(3), 793-811. http://dx.doi.org/10.1007/s11423-018-9578-x

Mehta, R., & Gleason, B. (2021). Against empathy: Moving beyond colonizing practices in educational technology. Educational Technology Research and Development, 69(1), 87-90. https://doi.org/10.1007/s11423-020-09901-2

E-Learning, EdTech, education

Canva- A Quick Crash Course Blog

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Canva, a more than popular tool most recently used on mobile devices as means of creating stimulating visual marketing and social media related images. However, do you know enough about Canva to become an effective Canva user? I hope you are able to leave this crash course well informed about the many uses of Canva!

There are hundred’s of pre-made templates that you can download and use to DIY your blog’s design. If you are struggling with web design, did you know you can use Canva to design certain elements of your site? Read more about this and other topics below centering around Canva!

10 Types of Visual Designs You Can Create With Canva

  1. Blog Post Image Template
  2. Sidebar Graphics
  3. Blog Email Newsletter Header
  4. Lead Magnet
  5. Content Upgrades
  6. Email Opt-In Mockups
  7. Blog Post Graphics
  8. Blog Post Infographics
  9. Tip-O-Graphics
  10. List-O-Graphics
  11. Blog Media Kit

Many users still don’t know the powerful features of Canva. With Canva, you can create the following:

  • Design product labels
  • Create workbooks / Planners / Ebooks
  • Posters
  • Flyers
  • Banners
  • Invitation cards
  • Logos
  • Templates
  • Photo collages
  • GIFs
  • Mobile videos
  • Infographic
  • Resume
  • Desktop wallpaper
  • Postcard
  • Worksheet
  • Certificate

3 Ways To Enhance Your Blog Posts with Canva

1. Blog Title Image

Canva’s Blog Title design template is best for Twitter, Facebook, and LinkedIn shares. If you’re looking for a portrait or vertical blog title image for Pinterest and Google+ shares you can use Canva’s Blog Graphic template. It works great!

2. Infographics

The best thing is Canva created an infographic template, which is SO helpful. You can use any of the ready to use template designs and switch out the font, colors, and design elements. Have an outline ready for your infographic, which will make it easier to get done.

3. Photo Collages

Photo collages are a great visual piece with a variety of images in one. You can use the ready-to-use Photo Collage template in Canva to show steps of a recipe or instructions. The Canva photo collage template is square shaped however you can create a photo collage with many of their photo grids.

You can use collages for designs and to display your portfolio. Use the Pinterest template in Canva and the multiple image photo grids as shown below.

Tip: Find the right photo with Canva’s built in photo library

To start, type a keyword or two into the search bar, and choose from any of the photos or illustrations — that means no more Google image searches. The extensive photo library hosts a wide variety of subjects and themes, like abstract images, textures, landscapes, people, and animals. Once you’ve found the perfect image, just drag it over to your design, and drop it where it needs to go.

Canva also allows you to upload your own images and use them on your design, which is perfect for adding your logo and other branded visuals to content.

Tip: Resize your whole design to fit various platforms.

The Magic Resize tool is available for Canva for Work users — a paid plan starting at $12.95 per month. Users of Canva’s free tools can still resize their designs by creating a copy of the original visual. Click “File,” “Change Dimensions,” and select the format to which you’d like to resize the design. That said, Magic Resize is quite a time-saving feature that lets you copy and resize one design into formats for various channels. Just click on “File,” navigate to “Magic Resize,” then choose the different formats you want to use to adapt your visual. Then, click the “resize” button, and you’re done.

Visual content is #Winning!

Social media users are much more likely to engage with posts that have “visuals” tied to them.

EdTech, education

8 Google Sheets Add-Ons For Educators

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Below is a collection of Google Sheets add-ons that I believe every teacher and educator should at least be aware of. These are tools that provide you with tons of functionality hacks to enhance your productivity and facilitate your workflow. Some of the things you can do with these add-ons include: creating forms of various types (e.g., quizzes, assignments, surveys, etc), generate PDFs and documents from Sheets’ data, grade and analyze digital assignments, create a class website from spreadsheets, and many more.

FormsCreator

An easy way to generate Google Forms to use for various educational purposes including for surveys, quizzes, assignments, feedback, etc.

Doctopus

Enhances teachers workflow by providing teachers with the ability to “mass-copy, share, monitor student progress, and manage grading and feedback for student projects in Google Drive”.

Autocrat

“Flexible, easy to use document merge tool that creates PDF or shared Documents from spreadsheet data”.

Wikipedia and Wikidata tools

This add-on is great for mining data for your classes. You can use Wikipedia and Wikidata tools to do a ton of information gathering, instantly. The add-on provides you with a host of custom lookups such as WIKITRANSLATE and WIKIGEOCOORDINATES. These functions pull live data straight from Wikipedia into a spreadsheet, enabling teachers to compile an up-to-date and accurate database of facts.

Flubaroo

A Google Spreadsheets Add-on that helps educators quickly grade and analyze online assignments and assessments, as well as share scores with students!”

Sheet2Site

Allows you to create a website for your class using Google Sheets.

Form Publisher

Allows you to generate documents (e.g., Docs, PDF, Sheets, Slides, Word, Excel, and PowerPoint) from data on Google Forms and Google Sheets.

Flippity

Originally, Flippity was designed to help you create online flashcards from Google Sheets, but the range of templates now includes everything from quiz shows and crossword puzzles to spelling and typing tests. The add-on has recently been discontinued but all the same great templates are available directly via the Flippity website.

E-Learning, EdTech

The 7 Components of TPACK For Successful Technology Integration

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At the heart of the TPACK framework, is the complex interplay of three primary forms of knowledge: Content (CK), Pedagogy (PK), and Technology (TK). The TPACK approach goes beyond seeing these three knowledge bases in isolation. The TPACK framework goes further by emphasizing the kinds of knowledge that lie at the intersections between three primary forms: Pedagogical Content Knowledge (PCK), Technological Content Knowledge (TCK), Technological Pedagogical Knowledge (TPK), and Technological Pedagogical Content Knowledge (TPACK).

Effective technology integration for pedagogy around specific subject matter requires developing sensitivity to the dynamic, transactional relationship between these components of knowledge situated in unique contexts. Individual teachers, grade-level, school-specific factors, demographics, culture, and other factors ensure that every situation is unique, and no single combination of content, technology, and pedagogy will apply for every teacher, every course, or every view of teaching.

May be an image of text that says 'TPACK P (or Technological Pedagogical Content Knowledge) is a framework that highlights the interdisciplinary relationship between teaching, learning, and technology.'
May be an image of text that says 'Contexts Technological Pedagogical Knowledge (TPK) Technological Knowledge (TK) Technological Content Knowledge (TCK) TPACK Pedagogical Knowledge (PK) Content Knowledge (CK) Pedagogical Content Knowledge (PCK)'
  • Content Knowledge (CK) – “Teachers’ knowledge about the subject matter to be learned or taught. The content to be covered in middle school science or history is different from the content to be covered in an undergraduate course on art appreciation or a graduate seminar on astrophysics… As Shulman (1986) noted, this knowledge would include knowledge of concepts, theories, ideas, organizational frameworks, knowledge of evidence and proof, as well as established practices and approaches toward developing such knowledge” (Koehler & Mishra, 2009).
  • Pedagogical Knowledge (PK) – “Teachers’ deep knowledge about the processes and practices or methods of teaching and learning. They encompass, among other things, overall educational purposes, values, and aims. This generic form of knowledge applies to understanding how students learn, general classroom management skills, lesson planning, and student assessment.” (Koehler & Mishra, 2009).
  • Technology Knowledge (TK) – Knowledge about certain ways of thinking about, and working with technology, tools and resources. and working with technology can apply to all technology tools and resources. This includes understanding information technology broadly enough to apply it productively at work and in everyday life, being able to recognize when information technology can assist or impede the achievement of a goal, and being able continually adapt to changes in information technology (Koehler & Mishra, 2009).
  • Pedagogical Content Knowledge (PCK) – “Consistent with and similar to Shulman’s idea of knowledge of pedagogy that is applicable to the teaching of specific content. Central to Shulman’s conceptualization of PCK is the notion of the transformation of the subject matter for teaching. Specifically, according to Shulman (1986), this transformation occurs as the teacher interprets the subject matter, finds multiple ways to represent it, and adapts and tailors the instructional materials to alternative conceptions and students’ prior knowledge. PCK covers the core business of teaching, learning, curriculum, assessment and reporting, such as the conditions that promote learning and the links among curriculum, assessment, and pedagogy” (Koehler & Mishra, 2009).
  • Technological Content Knowledge (TCK) – “An understanding of the manner in which technology and content influence and constrain one another. Teachers need to master more than the subject matter they teach; they must also have a deep understanding of the manner in which the subject matter (or the kinds of representations that can be constructed) can be changed by the application of particular technologies. Teachers need to understand which specific technologies are best suited for addressing subject-matter learning in their domains and how the content dictates or perhaps even changes the technology—or vice versa” (Koehler & Mishra, 2009).
  • Technological Pedagogical Knowledge (TPK) – “An understanding of how teaching and learning can change when particular technologies are used in particular ways. This includes knowing the pedagogical affordances and constraints of a range of technological tools as they relate to disciplinarily and developmentally appropriate pedagogical designs and strategies” (Koehler & Mishra, 2009).
  • Technological Pedagogical Content Knowledge (TPACK) – “Underlying truly meaningful and deeply skilled teaching with technology, TPACK is different from knowledge of all three concepts individually. Instead, TPACK is the basis of effective teaching with technology, requiring an understanding of the representation of concepts using technologies; pedagogical techniques that use technologies in constructive ways to teach content; knowledge of what makes concepts difficult or easy to learn and how technology can help redress some of the problems that students face; knowledge of students’ prior knowledge and theories of epistemology; and knowledge of how technologies can be used to build on existing knowledge to develop new epistemologies or strengthen old ones” (Koehler & Mishra, 2009).
The TPACK Image (rights free). Read below to learn how to use the image in your own works. Right click to download the high-resolution version of this image.
Photo Courtesy of TPACK.org

EdTech, Technology

4 Types of Cloud Computing Services

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“The cloud” refers to servers that are accessed over the Internet, and the software and databases that run on those servers. Cloud servers are located in data centers all over the world. By using cloud computing, users and companies don’t have to manage physical servers themselves or run software applications on their own machines.

Cloud technologies have transformed how organizations procure and manage infrastructure. With every organization today entering the cloud world, it is essential to understand the different types of services cloud computing offers. Although there are many types of cloud computing services, all these services have a few basic features and advantages in common and can be categorized into four basic cloud service offerings. Organizations can fly their business, small or big, to the cloud with these four different types of cloud computing services.

1. Infrastructure as a Service (IaaS)

The lower end of managed cloud computing services where hardware resources are provided by an external provider and managed for you. IaaS provides users access to computing resources such as networking, processing power and data storage capacity. The lower end of managed cloud computing services where hardware resources are provided by an external provider and managed for you. IaaS provides users access to computing resources such as networking, processing power and data storage capacity.

Examples of IaaS: Amazon EC2, Windows Azure, Rackspace, Google Compute Engine.

2. Platform as a Service (PaaS)

This cloud computing service is an advanced version of IaaS. Apart from just providing the IT infrastructure, PaaS also provides the computing platform and solution stack as a service. PaaS is a cloud computing service that provides developers with a framework that can be used for building custom applications. Platform as a Service lets software developers build custom applications online without having to worry about data storage, data serving, and management.

A typical Platform as a Service offering consists of – 

  • Hosting Solutions
  • OS
  • Software tools for design and development.
  • Environment for server-side scripting
  • DBMS
  • Network Access
  • Storage
  • Server Software
  • Support

Examples of PaaS solutions include Microsoft Azure, AWS Elastic Beanstalk, Force.com. by Salesforce, Google App Engine, Rackspace Cloud Sites, OpenShift, and Apache Stratos

3. Software as a Service (SaaS)

A special cloud computing service that incorporates both IaaS and PaaS service offerings. SaaS is a cloud computing service that provides application-level services tailored to diverse business needs such as business analytics, CRM, or marketing automation. SaaS is a cloud computing service offering that provides web-based software applications to customers on-demand. SaaS providers host a fully-functional application through a browser-based interface and make it accessible to the users through the Internet.

SaaS offerings allows the cloud to be leveraged for software architecture thereby reducing the overhead of support, maintenance, and operations as the applications run on systems belonging to the vendor. SaaS is the most familiar cloud computing service offering as users most often interact directly with SaaS applications like Netflix, Gmail, JIRA, Dropbox, or Salesforce.

Examples of SaaS solutions include SAP Business ByDesign, Zoho CRM, AppDynamics, Microsoft Office 365, Pardot Marketing Automation.

4. Functions as a Service (FaaS)

Before we understand Functions as a Service, it is important to understand the most popular tech term associated with FaaS – serverless computing. Serverless computing is a cloud computing model that takes away low-level infrastructure decisions and server management from the developers. The application architect need not deal with the allocation of resources as it is managed by the cloud service provider. 

FaaS is a brand-new and very young cloud computing service acting as a game-changer for many businesses. It is a serverless computing concept that lets software developers develop applications and deploy an individual “function”, piece of business logic, or an action without maintaining a server. It increases the efficiency as developers need not to consider server operations because they are hosted externally. 

Examples of FaaS include Google Cloud Function, Microsoft Azure Functions, Webtask.io, Iron.io , Open Whisk, and AWS Lambda.