Dr Denise M Robinson

Access Technology & Education Services for Blind and Low Vision

Search results for: “mathkicker”

  • Advanced Math with LaTex using Mathkicker.AI-Matrices

    In today’s digital age, technology has transformed how we approach learning, especially in subjects like accessible math. More importantly, this transforms how all screen reader users can access math like their peers. MathKicker.AI math program provides access to AP classes and advanced math for high school and college students. This accessible tool caters to diverse learning needs, offering compatibility with various screen readers. This video features Advanced Math with LaTex and shows how it can enhance your mathematical skills, making complex equations easier to tackle.

    Matrices

    Dr. Robinson explains the basics of navigating MathKicker.AI. Matrices can easily create a Matrix with Alt = and type it in LaTex. This quickly provides accurate math and F9 will allow you to see and enter LaTex. You can also learn the LaTex from just typing the math into Mathkicker. The session showcases the ease of solving matrix equations, demonstrating how to find the matrix C resulting from matrices A and B.

    Throughout the demonstration, Dr. Robinson shares tips for efficient navigation, including using the home key and arrow keys to read through equations. She highlights the functionality of the F9 key for processing inputs and emphasizes the need to verify details when working with complex equations.

    Advanced Math with LaTex in Mathkicker.AI

    As she works through a specific problem, Dr. Robinson illustrates how to structure equations and maintain clarity while performing calculations. Remember to double-check your work and she encourages people to utilize the program’s features for swift problem-solving.

    By the end of the session, Dr. Robinson summarizes the output clearly, showcasing the successful application of Math Kicker. She encourages students to explore this tool for enhancing their math skills, particularly in higher education and advanced high school courses.

    This tutorial not only highlights the software’s capabilities but also empowers screen reader users and all students to embrace technology in their learning to keep up with their peers.

    Mathkicker editor with Jaws or NVDA and display for math access
    Mathkicker editor with Jaws or NVDA and display for math access for advanced math

    Other Math Lessons from Basic Math to Advance Skills

    Many Lessons on Matrices and other math skills

    FIRST Lesson: Optimizing Windows 11 Efficiency for Screen Reader with Key Settings and Configurations

    Digital Math in WORD and Braille Math Editor for Nemeth or UEB Input/Output via MathCat with JAWS or NVDA

    Digital Math with UEB, NVDA completing Matrices in WORD

    MathKicker. AI for Matrices with NVDA or JAWS-Speed in completing Work

    Geometry and Graphing in Desmos

    Geometry-” Drawing” shapes in Desmos

    Making the Inaccessible—Accessible

    Digital Quadratic Math with Jaws or NVDA in Mathkicker.ai – auditory and/or braille display

    Transcribe math images into text in WORD math editor with Mathkicker and transcriber tricks – YouTube

  • Transcribe math images into text in WORD math editor with mathkicker and transcriber tricks

    Dr. Robinson guides transcribers through the process of math image conversion for accessibility, specifically focusing on converting math images into accessible Word documents using MathKicker.AI. She begins by highlighting that transcribers will easily recognize an image when it turns blue upon clicking it when opened in PDFs. These images, often blurry due to repeated copying by teachers, require careful description for students who cannot feel the number lines. Dr. Robinson emphasizes the importance of adjusting the level of detail based on the student’s age and familiarity with number lines during the math image conversion access process.

    To begin the process to learn how to convert math images into accessible Word documents for students with accessibility needs, Dr. Robinson gives step-by-step video instruction using “Windows + Shift + S” to capture the image and then select “Convert Image to Doc” using the clipboard in Mathkicker.AI. This method is particularly useful for large documents. Once converted, the image opens in Word, where it is important to enable editing with F6. She advises saving the document with a simple name, like “Line Work,” and placing it in the downloads folder from Mathkicker.AI.

    Dr. Robinson demonstrates how to work side-by-side with the original image and the converted document. By adjusting the zoom to 200%, transcribers can compare the math accurately. She notes that sometimes images may contain extra elements, like a punched hole, which the software might misinterpret. These should be corrected during math image conversion for access.

    mathkicker on left side of screen and image of math on right for transcribe to acquire Word text

    Accuracy for Math image conversion access

    For further accuracy, Dr. Robinson recommends using alternative text (alt text) for the graphic line. This helps students and sighted individuals, such as teachers or parents, understand the content. She explains that leaving the graphic in the document with added alt text is beneficial. A user can add the braille Math editor into use in WORD also for more options or even using EXCEL.

    Moving to more complex math for math image conversion access, she instructs on using the Desmos graphing calculator. Students can use “Alt + Print Screen” to capture and paste graphs into the Word document. Describing shaded areas or specific graph features is crucial for clarity. Finally, Dr. Robinson shows how Math Kicker efficiently converts math into text, creating clean, accessible documents. This method, combining math image conversion access and alt text descriptions, significantly speeds up the transcription process while ensuring students receive accurate, accessible math content. Dr. Robinson concludes by encouraging transcribers to reach out with any further questions. At times, you need to adjust Margins, etc.

    When you are ready progress to advanced Math and more ways to convert inaccessible PDF math into actual text in WORD.

    Be My Eyes for Computer: Describe Images, Graphs, and Screens Instantly

  • Perfect Digital Math at all levels using only audio or tactile Braille or both in Mathkicker.ai

    Dr. Robinson demonstrates how to use MathKicker.AI to complete various types of math with NVDA and UEB math. She begins by accessing a math problem in HTML format through a browser. Using outdated software, including NVDA on Windows 10, she shows how even older technology can effectively handle advanced math tasks.

    First, Dr. Robinson opens a math problem in Firefox, which currently translates math perfectly. She presses “Control + P” to print the page as a PDF, saving it to her downloads folder. Next, she switches to Chrome using “Windows + 3” and opens Math Kicker.AI, a tool designed for converting math problems. She uses the “Alt + C” command to start the conversion process.

    She navigates through MathKicker’s options using the applications key and selects UEB math code with NVDA commands. After selecting the PDF file, she waits for two chimes, indicating the conversion is complete. To begin solving the problem, she turns off the virtual cursor, moves to the problem area, and uses the “F2” key to break down the equation into individual components.

    She demonstrates how to solve the problem step by step, using commands like “Alt + B” to apply operations to both sides of the equation. She also uses “Control + R” to replace specific elements in the equation, simplifying the problem as she goes. After completing the math problem, she presses “F9” to review the LaTeX code, reinforcing her understanding of the math.

    Dr. Robinson explains how these steps ensure that even visually impaired students can solve advanced math problems with outdated technology. She emphasizes that Math Kicker.AI, combined with NVDA, allows for accurate UEB math transcription, making it accessible to a global audience. She concludes by encouraging viewers to use these methods to handle any type of math problem effectively. More NVDA and UEB Math videos here.

    Other Math Lessons

    Transcribe Math Images

    Quadratic Math

    STEM with Embossing

  • Accessible Quadratic Math in MathKicker.ai Using JAWS or NVDA with Auditory and Braille Output

    MathKicker.ai with Screen Reader

    In this video, Dr. Robinson begins by demonstrating how to use MathKicker.ai with screen readers like JAWS or NVDA. She focuses on solving quadratic equations. First, she shows how to handle graphics that are not accessible to screen readers. By using the “Applications” key and selecting “Copy Image,” users can paste the image into MathKicker using “Alt + V.” The system converts the image into readable math, confirmed by two chimes.

    Dr. Robinson then guides users to navigate and manipulate the quadratic equation in MathKicker.ai with screen reader. She demonstrates how to move constants to the other side of the equation using “Control + Right Arrow.” Next, she explains the process of completing the square by taking half the coefficient of x, squaring it, and applying it to both sides with “Alt + B” and entering the value.

    poor PDF image of math that mathkicker translates into perfect math in WORD

    She continues by rewriting the equation as a perfect square, using “Control + R” to replace terms in MathKicker.ai with screen reader. She shows how to take the square root of both sides with “Alt + B” and using “R” for radical. The process involves replacing the square root with the exact values, ensuring each step is clear and accurate.

    Throughout the MathKicker.ai with screen reader tutorial, Dr. Robinson emphasizes using keyboard commands to navigate and solve the equation. She also highlights how users can submit their work to their teachers directly from MathKicker by using the “Applications” key and selecting “Submit Work to My Teacher.” See more lessons on Mathkicker.AI with Jaws or NVDA.

  • Transcribing Math Images into Perfect Word Math Editor Equations Using MathKicker.ai and Expert Transcriber Techniques

    Dr. Robinson demonstrates how transcribers can efficiently convert math images into text using accessible Word documents and MathKicker.AI. She begins by showing how to identify an image containing a math problem. Note, that it turns blue when clicked and often appears blurry for a hint of inaccessible. To convert the image, she uses the “Windows + Shift + S” command to capture the image, then pastes it into MathKicker using “Alt + V.” After converting the image, she opens the document in Word.

    Dr. Robinson advises transcribers to compare the original image with the converted text to ensure accuracy. She recommends using “F12” to save the document and “Alt + D” to choose the save location. For side-by-side comparison, she suggests using “Alt + Space” and “R” to restore and resize the windows.

    For Transcribers to convert math images into text

    To describe number lines or graphs, transcribers should write out the details, such as the range and direction of the line. Dr. Robinson also shows how to add alt text to images by right-clicking and selecting “View Alt Text.” This feature is particularly useful for visually impaired students who rely on screen readers.

    For inequalities and other math problems, Dr. Robinson explains how to use Desmos, a graphing calculator tool. She demonstrates how to type equations into Desmos and capture the graph using “Alt + Print Screen.” The captured graph can then be pasted into the Word document, and additional descriptions should be provided for clarity.

    Finally, Dr. Robinson emphasizes the importance of proofreading and adjusting the text to ensure it accurately represents the math content. She encourages transcribers to use MathKicker for quick and accurate transcriptions, highlighting its ability to create accessible math documents efficiently.

    Other Math Lessons:

    Transcribe Math Images

    Quadratic Math

    STEM with Embossing

    Perfect Digital Math

    JAWS and MathCat

    Unicode with UEB Math

    UEB Math with Jaws

    UEB LaTex math with Jaws

    Braille Math in WORD Editor-Multi-line

    Split Braille for Buffer Mode

    Braille Blaster

    Desmos Lessons:

    Desmos 3D graphing

    for Geometry in Desmos

    for STEM and Embossing in Desmos

    Desmos and inserting graphs into Math Work in WORD

    Creating shaded Parabolas in Desmos

    Games with Desmos with Drag and Drop

    Drag n Drop in Macmillan Learning

    Creating Geometry Table

  • Math & AI: Using MathKicker to Convert PDF Math into Accessible Word Documents

    Dr. Robinson introduces Mathify, now called Mathkicker.AI, an AI program designed to convert inaccessible math content into accessible formats. This tool is especially beneficial for the blind community, providing a solution for one of the most challenging aspects of accessible education: converting math from inaccessible formats into usable, accessible ones.

    In this tutorial, Dr. Robinson demonstrates how to use Mathify to convert a PDF image file into a DOCX file. She focuses on a table of math, one of the most problematic types of files to translate. Dr. Robinson opens the file, which prompts a save and loads in a private window. This process is typically faster in a standard window.

    mathkicker options for converting inaccessible items to accessible into WORD

    As the document loads, Mathkicker.AI effectively transforms the original images of X and Y tables into accessible tables. These tables allow students to later convert them into graphs, giving them the ability to independently create and emboss their graphs. Dr. Robinson scrolls through the document, highlighting the images now converted into accurate math tables. Small squares around each equation make them easily identifiable.

    She explains that students can use the “Alt + Equals” command in Word’s math editor to navigate to the last cell in the table and type out their equations. This feature highlights how Mathify translates PDFs into accessible, editable text. The original PDF is titled “Equivalent Ratios Practice Number One.” It converts successfully into clear and accessible text.

    Now a New Mathkicker Editor

    Dr. Robinson emphasizes that Mathkicker AI continues to improve with user feedback. She notes her preference for left alignment and how the program adapts to these preferences. Despite being a new tool, Mathkicker excels at handling math and other content, making it a versatile resource. Dr. Robinson encourages viewers to use Mathkicker and look forward to more tutorials, as the program has continued to evolve and improve utilizing a Mathkicker editor now.

  • Screen Readers Can’t Read This!

    Fix Google Slides and other work Fast with AI

    What Screen Readers Can’t See: A Wake-Up Call for Educators

    Many teachers rely on tools like Snip & Clip or download entire packets of image-based worksheets. But it’s important to understand that most resources on popular teacher websites—especially those behind paywalls—are completely inaccessible to blind and low vision students. These materials are often just images or scanned PDFs. Consequently, screen readers can’t read this type of content at all.

    This video demonstrates how these inaccessible formats appear to a screen reader user. It shows how nothing reads, nothing speaks, and the content remains out of reach.

    It also shows how older students who have been taught tech skills for years, transcribers or teachers, can quickly make the material accessible. This is especially helpful for a screen reader user who is not yet able to do it independently.

    google slide image of work-all inaccessible to a screen reader user
    Google slide image of work-all inaccessible to a screen reader user

    Watch Video to show you all the steps: Screen Readers Can’t Read This! Fix Google Slides and other work Fast with AI

    Commands to know: Use EDGE and its built in AI with -CTRL+Shift+period, so the AI can see the pages you are on. (Do not do banking of any kind without using a private window and a non-AI browser.)

    Watch the video to get all the steps down. It can change your life to the inaccessible world. Alternatively, transcribers and teachers can do it for you until you learn the skills well yourself.

    Other School Platforms that are inaccessible can be resolved with this solution also now

    Other Options to Make Work accessible

    Math & AI = Mathify.ai convert PDF math or any work into WORD docx. to make inaccessible to accessible

    Difference between inaccessible and accessible website content

    Changing inaccessible to accessible text using Google Docs

    Be My Eyes for Computer: Describe Images, Graphs, and Screens Instantly

  • Restore System & Fix PC issues

    Restore and Fix Computer
    Restore and Fix Computer

    Restore System & fix PC issues, Word Auto-save & Copilot, Restoring Desktop Icons, etc. This guide resolves big or small PC issues. The video explains how to use System Restore to fix various problems on your computer. It also provides tips for ensuring your work is always saved automatically in Microsoft Word and shows commands to keep or remove Copilot in 365. Additionally, it demonstrates steps to restore desktop icons if they disappear. Designed to help viewers troubleshoot and resolve these issues efficiently using keyboard commands or a mouse. This video is part of the #TechTricks series, aimed at making tech tutorials accessible and easy to follow.

    In addition to these essential tips, the video explains how to optimize your PC’s performance by managing startup programs and clearing unnecessary files. Viewers will also learn how to customize their system settings for a smoother user experience. Moreover, the guide emphasizes practical solutions that can be easily implemented, making it a valuable resource for both novice and experienced users. By following the steps outlined in the video, you can ensure your computer runs efficiently and remains free of common issues, such as needing to restore your system to fix PC issues.

    Resolve PC problems with Daily Tasks

    Performing daily maintenance tasks on your PC is essential for keeping it running smoothly and efficiently. For example, fixing PC issues can prevent long-term problems. Additionally, using System Restore helps you quickly resolve unexpected issues. Ensuring your work is always saved automatically in Microsoft Word prevents data loss and keeps your projects on track. Furthermore, keeping your desktop icons organized and visible helps maintain a clutter-free workspace. By incorporating these habits into your daily routine, you can prevent common problems and ensure your computer remains in optimal condition. This proactive approach saves time and enhances your overall productivity and user experience. Remember to restore your system and fix PC issues as part of your routine.

    Other #TECHTRICKS

    Find and restore deleted files or lost files & folders

    Tricks to Learning Math

    JAWS Cursors: Enhancing Navigation and Control for Blind Users by Finn

    Best Computer Specs Guide: RAM, SSD, CPU .NET

  • Tricks to Learning Math

    Tricks to Learning Math

    Dr. Robinson emphasizes practical and efficient math strategies for visually impaired students using assistive technology. Moreover, she demonstrates accessible solutions that empower students to engage independently in math tasks. Some of the best tricks to learning math for visually impaired students include understanding how to use technology effectively. For example, she teaches the Word Math Editor, activated with Alt+Equals, which enables students to access and edit equations effectively. Furthermore, this tool allows students to calculate expressions, such as a circle’s area, using keyboard shortcuts for greater efficiency. In addition, she introduces the Braille Math Editor, which enhances accessibility and provides tactile support for understanding complex math concepts. Continue with Advanced Math with LaTex using Mathkicker.AI-Matrices also.

    Dr. Robinson configures Braille displays and the Braille Math Editor to improve accessibility and clarity for students. Students solve problems efficiently by using built-in features like scientific calculators and shortcuts such as Ctrl+C and Ctrl+V.

    Dr. Robinson demonstrates advanced techniques, including LaTeX for math notation and proper vinculum coverage in equations. She converts equations between professional and linear formats to ensure accuracy in math tasks. Knowing tricks to learning math, such as using LaTeX, can greatly benefit students. Add Tactile Math Tools for even better understanding.

    She teaches code structures and tools to help students work independently with their peers during lessons. By optimizing settings and using shortcuts, students gain confidence and efficiency in solving complex math problems.

    Dr. Robinson ensures students participate fully in math classes and achieve academic success. Her methods, which include easy ways to learn math, integrate the latest assistive technologies to empower visually impaired students in STEM fields.

    Increase Learning in Nemeth also with Digital Math in WORD and Braille Math Editor for Nemeth or UEB Input/Output via MathCat with JAWS or NVDA

    Continue advancing your math skills with Desmos Graphing Calculator and creating all shapes but we focus on Geometry. You learn how to create graphs with solid or dotted lines with color and more. Find the steps you need to compete with your peers in this video. More Mathkicker lessons to show you the ease of completing math quickly to hand into teachers.

    Ask TechVision to Teach directly to teachers for School’s Professional Development Days.

  • Digital Math in WORD and Braille Math Editor for Nemeth or UEB Input/Output via MathCat with JAWS or NVDA

    Digital Math in WORD and Braille Math Editor for Nemeth or UEB Input/Output via MathCat with JAWS or NVDA. This lesson empowers you to learn skills for teaching yourself and others Nemeth or UEB math. By incorporating Math AI, you can transform inaccessible math images into usable formats in just seconds, significantly speeding up the learning process compared to transcribing character by character. While the video covers some essential skills, the following links provide comprehensive lesson details from the Digital Math in WORD Video.

    MathCat with JAWS or NVDA

    Learning how to teach or learn Nemeth math using assistive technology can seem challenging, but with the right tools and approach, it becomes manageable and effective. Whether you’re a parent helping your child, an educator supporting students, or an independent learner, using a Focus 40 Braille Display and JAWS screen reader provides an accessible way to master Nemeth code. In this guide, I will walk you through setting up your technology and using the Braille Math Editor to confidently teach and learn math concepts from basic arithmetic to advanced algebra. Let’s simplify the process and enhance your skills.

    Setup your computer to work the best with Screen readers and Digital Math in WORD

    Before beginning the challenge of learning Nemeth or UEB with screen readers, make sure you Optimize your Windows 11 computer for Efficiency with Screen Readers with Key Settings and Configurations. Optimizing Windows 11 Efficiency for Screen Reader with Key Settings and Configurations takes an hour most often 2 or so to complete. Longer if you are new to screen reader and how Windows 11 works. It is different than other OS systems so give yourself grace as you learn all there is to know about this system. As you move through your keyboard and discover you would like a particular key somewhere, like the applications key, you can remap a key to create that yourself. AND, you MUST have Local Admin on School Computers.

    Mathkicker.AI

    Mathkicker for digital math access with Jaws or NVDA
    Mathkicker for digital math access with Jaws or NVDA-Login Page

    Making inaccessible Math images into accessible math is easily done with Mathkicker.AI. With this full demonstration of Digital Quadratic Math with Jaws or NVDA in Mathkicker.ai – auditory and/or braille display. More importantly, is finishing work quickly with Mathkicker.AI in completing advanced mathematics such as Matrices with a quick command of Alt M and typing in the size of the matrix that is needed.

    Mathkicker editor with Jaws or NVDA and display for math access
    Mathkicker editor with Jaws or NVDA and display for math access

    Continue advancing your math skills with Desmos Graphing Calculator and creating all shapes but we focus on Geometry. You learn how to create graphs with solid or dotted lines with color and more. Find the steps you need to compete with your peers in this video. More Mathkicker lessons to show you the ease of completing math quickly to hand into teachers.

    These lessons and anything you need can be added to your School’s Professional Development Days.

    UEB Math Lessons to continue to add to your Learning

    Teach or Learn UEB Math with JAWS and Braille Display

    UEB Math Lessons Galore with AI

    Desmos Graphing Calculator

    Creating Geometry Tables in Desmos from WORK

    Geometry in DESMOS graphing Calculator with screen reader

    STEM: Desmos with JAWS and Embossing

    Use Desmos graphing calculator to emboss graphs & insert Graphs into Math Work for teacher

    3D graphing calculator with screen reader commands in Desmos

    Desmos graphing calculator with shaded Parabolas, screen reader, braille display and embosser

    Drag and Drop with Desmos using graphing games with JAWS

    Desmos Graphing Calculator: Creating and Exporting Graphs

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