Embossing graphics for Blind Students: Dr. Robinson offers this video for families and transcribers needing to adapt images for blind students to “see.” This video offers a straightforward approach to creating accessible Venn diagrams using the technique to emboss graphics with Tiger.
Dr. Robinson begins by explaining how to handle a Venn Diagram or any graphic. She demonstrates using a Venn diagram with two large, intertwined circles, where all parts are shaded. Such images blur when transferred into Tiger Designer, a common tool for producing tactile graphics. She recommends redrawing the diagram for clarity, ease, and speed. This approach is more effective than fixing the shaded areas when you emboss graphics with Tiger.
How to Emboss the Tiger Graphic
To show blur issues, she creates a new diagram, by opening Tiger Designer and pressing Control + N to start a new document. After ensuring the default settings are correct, pasting an image using Control + V will result in a blurry output due to the shading. In this case, Dr. Robinson suggests redrawing the Venn diagram. Ctrl + N for new again and Alt+O or click on Tools. Select a line width of 2.5 or 3, as thicker lines are easier for students to feel when you emboss graphics with Tiger.
Dr. Robinson then demonstrates how to draw two circles from the tool’s menu, representing the basic structure of the Venn diagram. She emphasizes the importance of labeling the sections and typing in uncontracted Braille works fine. She notes that while parents may not be familiar with contractions, students are accustomed to reading uncontracted Braille. It’s crucial to use these steps to emboss graphics with Tiger accurately.
Finally, Dr. Robinson shows how to emboss the Tiger graphic with Ctrl + P to emboss. Ensure the correct printer model and settings are applied. The final result will be a clear and accessible tactile diagram that the student can easily interpret.
Learning Spanish Braille involves understanding the unique characteristics of the Braille system used for the Spanish language. Then build on the foundational skills of Braille reading and writing. Here’s how to approach it:
1. Understand the Braille Alphabet in Spanish
Spanish Braille follows the same 6-dot system as English Braille.
Extra characters are included to represent letters with accents and special characters used in Spanish.
Key additions include:
Ñ: Represented by a unique Braille symbol.
Accented vowels: Á, É, Í, Ó, Ú have distinct Braille symbols.
Punctuation: Spanish uses inverted question marks (¿) and exclamation marks (¡), and these have their own symbols in Spanish Braille.
2. Start with the Basics
– Begin by learning the standard Braille alphabet for unaccented letters, numbers, and common punctuation marks.
– Practice reading and writing these basic symbols to build fluency.
3. Familiarize Yourself with the Extra Characters
– Learn the Braille symbols for accented vowels (á, é, í, ó, ú) and ñ.
– Read and practice with materials specifically written in Spanish Braille to develop fluency.
– You can find books, articles, or educational materials written in Spanish Braille to improve your reading skills online.
5. Engage with Digital Tools
– Tools like Braille displays and screen readers can be set to Spanish to help reinforce learning. See below list of all Spanish symbols
– Software like JAWS or NVDA can be configured to support Braille output in Spanish. This allows for real-time practice with written content.
6. Practice Writing Spanish Braille
– Use a Braille writer to practice writing in Spanish Braille. Focus on mastering punctuation and special characters.
– The fastest and easiest to edit option will be to practice typing or brailling on a display. The FOCUS 40 Braille Display or Brailliant Braille Display to write out Spanish words and sentences.
7. Learn through Immersive Activities
– Reinforce learning, engage in practical activities like labeling objects in Spanish Braille. Work with bilingual Braille texts (Spanish and English).
8. Find a Teacher or Tutor
– If possible, work with an instructor who is fluent in Spanish Braille and the language. They can guide you through the nuances of the language and provide feedback on your progress.
– Organizations specializing in Braille education, like TechVision, can help offer resources or tutors for Spanish Braille.
8. Go to a Spanish Speaking Country
-Totally immerse yourself within a culture that will speak the language you want to learn well.
Spanish-Española Symbols
Spanish-Española 1. Jaws settings: Set up braille profile – insert 6 (ctrl shift D) for default. After completing the steps, open settings again to ensure they apply only to Word settings. Next, type “braille mode” twice, press F6, and use Alt+G to access languages and set your preferences. For those requiring a Spanish Braille display or keyboard, ensure your device is compatible with your software settings. More Video lessons can help.
This lesson is Spain (international) Input and Output are Spanish Grade 1
2. Tab to profile languages and set those up and enter to close Jaws settings
3. Alt 8 to make sure dots 7,8 show on display-accept and close settings
1. Set up Voice profile in Jaws-open context menu, options, voices, add a profile
1. In Word-change voice quickly: 2 options: on keyboard- ctrl shift window L to change profile or on Focus -2,3,4,5,7, space to change languages)
2. Insert+ctrl+S to change to Spanish profile or to other language
3. G+7+space on Focus to computer braille (which will output Spanish grade 1)– capital is dot 7 under capital letter on display
For Braille with Braille Display on Computer
Práctica:
á 1,2,3,5,6
é 2,3,4,6
í 3,4
ó 3,4,6
ú 2,3,4,5,6
ü 1,2,5,6,8
ñ 1,2,4,5,6, 8
Punctuation for Spanish Braille using Braille Display
! 2,3,5, 7 is exclamation mark
inverted ! is 2,3,5, 7, 8 is upside down exclamation mark
Period is . is dot 3
Comma is , is dot 2 for comma
question mark is ? is dot 2, 6
upside down question mark or inverted ? is 2,6,7
Spanish Braille for Keyboard and JAWS
Lower Case Letters
á (lower case a, acute accent) = Press Ctrl + ‘ (apostrophe), then the letter a é (lower case e, acute accent) = Press Ctrl + ‘ (apostrophe), then the letter e í (lower case i, acute accent) = Press Ctrl + ‘ (apostrophe), then the letter i ó (lower case o, acute accent) = Press Ctrl + ‘ (apostrophe), then the letter o ú (lower case u, acute accent) = Press Ctrl + ‘ (apostrophe), then the letter u ñ (lower case n, tilde accent) = Press Ctrl + Shift + ~ (tilde), then the letter n ü (lower case u, diaeresis accent) = Press Ctrl + Shift + : (colon), then the letter u
Upper Case Letters
Á (upper case A, acute accent) = Press Ctrl + ‘ (apostrophe), then Shift + a É (upper case E, acute accent) = Press Ctrl + ‘ (apostrophe), then Shift + e Í (upper case I, acute accent) = Press Ctrl + ‘ (apostrophe), then Shift + i Ó (upper case O, acute accent) = Press Ctrl + ‘ (apostrophe), then Shift + o Ú (upper case U, acute accent) = Press Ctrl + ‘ (apostrophe), then Shift + u Ñ (upper case N, tilde accent) = Press Ctrl + Shift + ~ (tilde), then Shift + n Ü (upper case U, diaeresis accent) = Press Ctrl + Shift + : (colon), then Shift + u
Hasta la vista / Hasta luego. See you / See you later.
Hasta pronto. See you soon.
Hasta mañana. See you tomorrow.
(Muchas) Gracias.
Thank you (very much).
De nada. You’re welcome.
Bienvenidos Welcome
Lo siento I’m sorry
Con permiso / Perdón / Disculpe Excuse me / Pardon me
¡Vamos! Let’s go!
¿Cómo está usted? How are you? (formal)
¿Cómo estás? How are you? (informal)
Insert+4 for eacute in
¿Qué tal? How’s it going?
Bien / Muy bien Good / Very good
Insert+4 for acute in Más below
Mal / Muy mal / Más o menos Bad / Very bad / OK
Sí / No Yes / No
¿Cómo?
¿Cómo se llama usted? What is your name? (formal)
¿Cómo te llamas? What is your name? (informal)
Me llamo… / Mi nombre es… My name is…
Mucho gusto. / Encantado. Nice to meet you.
Immersion in Language
Here is the sequence of learning in order to learn any language well:
The time it takes to learn a new language, like Spanish, while living in a country where it is the only language spoken, depends on several factors. However, here are general timelines and considerations:
1. Immersion Benefits
Living in a Spanish-speaking country accelerates learning because you’re constantly exposed to the language in real-life situations like:
Listening: Conversations, TV, radio, and announcements.
Speaking: Daily interactions with locals, from shopping to asking for directions.
Reading and Writing: Street signs, menus, newspapers, and more.
2. Language Learning Proficiency Levels
The Common European Framework of Reference for Languages (CEFR) breaks language learning into six levels:
A1 (Beginner): Basic phrases and conversations (3–6 months).
A2 (Elementary): Can understand simple texts and conversations (6–12 months).
B1 (Intermediate): Hold conversations on familiar topics and function in everyday life (12–18 months).
B2 (Upper Intermediate): Fluent in most situations, including work and travel (18 months–2 years).
C1 (Advanced): Understand complex topics and engage in nuanced conversation (2–3 years).
C2 (Proficient): Full mastery of the language, similar to a native speaker (3+ years).
Factors that will Determine Speed
3. Factors That Affect Learning Speed
Motivation and Attitude: Strong motivation and a positive mindset can accelerate your progress.
Practice Consistency: Daily practice, speaking, listening, and reading in Spanish speeds up learning.
Prior Language Experience: If you’re already familiar with Romance languages (e.g., Italian or French), learning Spanish might be faster due to similarities in vocabulary and grammar.
Formal Education: Taking classes, whether in person or online, and using language apps like Duolingo or Babbel can help structure your learning and improve your skills more quickly.
Social Interaction: Making friends who are native speakers or joining local groups can enhance your conversational abilities.
4. Realistic Expectations
– For basic conversational fluency (A2-B1), expect about 6 months to 1 year of immersion if you’re dedicated and practicing regularly.
– To reach an advanced level (C1), you might need 2 to 3 years of living and interacting in the language full-time.
5. Cultural Immersion
Your understanding of Spanish will deepen faster if you immerse yourself in the local culture, customs, and idiomatic expressions. Engaging in local activities, reading newspapers, and watching TV shows will all help you learn the language more organically.
Summary:
On average, 6 months to 1 year of immersion in a Spanish-speaking country should allow you to gain conversational fluency, with full mastery taking about 2–3 years, depending on your dedication and resources.
Adult Learning Speed
Sequence of learning for an adult
For adults, learning a new language like Spanish while living in a country where it’s the only language spoken can still be highly effective, but several factors can influence the timeline. Here’s what an adult learner can expect:
1. General Time frames for Adult Learners
Conversational fluency (A2-B1 level): Typically achievable in 6 months to 1 year of immersion.
Advanced proficiency (B2-C1 level): May take 1.5 to 2.5 years of consistent use and practice.
Full fluency (C2 level): Can take 3 years or more, depending on factors like exposure, practice, and language complexity.
2. Factors Affecting Adult Learning Speed
Cognitive Flexibility: Adults tend to be more methodical learners than children, but they can sometimes struggle with retaining new vocabulary and adapting to different grammar structures.
Prior Experience: If the adult already speaks a Romance language (like Italian or French), they will likely learn Spanish more quickly because of the structural similarities.
Learning Environment: The more opportunities for immersion—such as interacting with native speakers, engaging in cultural activities, and using Spanish in daily tasks—the faster the progress.
Language Learning Methods: Adults often benefit from a combination of formal learning (e.g., classes, tutors) and informal learning (e.g., conversations, media consumption).
Motivation and Consistency: Adults with clear goals and regular practice (even just 30 minutes a day) tend to progress faster. Maintaining consistent practice is key to long-term retention.
Challenges for Adult Learners
3. Challenges for Adult Learners
Accent and Pronunciation: Adults might find it harder to develop a native-like accent, though this doesn’t prevent them from becoming highly fluent.
Work and Life Responsibilities: Adults often juggle work and personal responsibilities, which can limit the time available for focused language learning.
Grammar: Grasping grammatical structures, verb conjugations, and nuances may take longer for adults compared to younger learners, who tend to absorb new patterns more intuitively.
4. Accelerating Adult Learning
Use Daily Immersion: Engage in conversations, read signs, watch TV shows, and use apps like Duolingo or Babbel to reinforce lessons in real-life situations.
Structured Learning: Enroll in Spanish classes or hire a tutor to build a strong foundation in vocabulary and grammar.
Use Technology: Utilize language-learning apps, podcasts, or online lessons. Watching Spanish media with subtitles can help you pick up common phrases and pronunciation.
– Join Social Circles: Engage with locals, participate in group activities, and use Spanish in daily interactions. This practical experience will help reinforce what you’ve learned.
– Set Realistic Goals: Adults benefit from having clear, incremental goals (e.g., mastering a certain level of vocabulary or holding a 10-minute conversation) to track progress and stay motivated.
Adult Experience
5. Common Experiences for Adults
After 3-6 months, most adults can hold basic conversations, ask for directions, and manage daily interactions in Spanish.
By 1 year, many can discuss familiar topics, navigate most social situations, and understand much of what they hear or read.
Within 2 years, a dedicated adult learner can likely achieve strong conversational fluency and understand complex topics, though nuances and slang may still be challenging.
Summary
For an adult, achieving conversational fluency in Spanish typically takes 6 months to 1 year with immersion and regular practice. Advanced proficiency may take 1.5 to 2.5 years, while full fluency could require 3 years or more, depending on the learner’s background, motivation, and exposure to the language.
Dr. Robinson and her Team at TechVision have made a significant global impact via their Team Mission and Purpose. TechVision specializes in 1:1 remote instruction in education for the blind and visually impaired, serving individuals of all ages. We also train School Teams: transcribers, Teachers of the Blind and other School Personal and work with parents. Their expertise is delivered through personalized, real-time 1:1 remote instruction. This approach empowers students and clients to compete equally with their sighted peers in both education and work.
Dr. Robinson starts by showing how to set up JAWS with windows 11. She explains how to find and use the JAWS context menu by pinning it to the taskbar. To access it, use Windows + T and the right arrow key. She also advises switching JAWS to laptop mode, even if you’re on a desktop, to use both desktop and laptop commands. This makes JAWS more flexible.
Next, Dr. Robinson talks about setting up voice profiles. She recommends creating different profiles for different tasks, like using a slower speed for reading and a faster speed for navigating. This helps make the screen reader more effective.
The video also explains how to set up a Braille display. Dr. Robinson guides you on choosing and configuring the right Braille display. She also mentions the early adopter program, where you can enable MathCAT for advanced math work, ensuring it works well with JAWS in Microsoft Word.
Adjusting Microsoft Word and Email Settings
Dr. Robinson then moves on to Microsoft Word settings. She explains how to adjust autocorrect features to prevent automatic changes that might confuse the screen reader, especially in math. By disabling certain autocorrect options, you can make sure the screen reader reads everything accurately.
Finally, Dr. Robinson shows how to set up Gmail with keyboard shortcuts and integrate it with Outlook. She gives clear steps on enabling IMAP and adjusting security settings. This setup allows you to manage your email smoothly using screen readers.
How to set up a Windows 11 computer for optimal screen reader performance is crucial for blind and low vision users. First, ensure that your computer meets the necessary system requirements. A powerful processor and sufficient RAM are essential for smooth operation. Additionally, installing the latest updates for Windows 11 is important. These updates include crucial security patches and performance improvements. If you find you need to remap a key to say, acquire an applications key on your keyboard, you can do that yourself.
Next, customize the display settings to enhance visibility. Adjusting the screen resolution and scaling ensures that text and icons are easier to read. Moreover, enabling high contrast mode can make the interface more accessible. This setting increases the contrast between background and text, making it easier to distinguish elements on the screen.
In addition, configuring keyboard shortcuts can significantly improve efficiency. Windows 11 offers a variety of shortcuts for navigating the system. Customizing these shortcuts allows for quicker access to frequently used features. Furthermore, consider enabling the on-screen keyboard for easier input.
How to setup Windows 11 for screen readers such as JAWS, NVDA, and Narrator are essential tools for blind users. Ensure that your chosen screen reader is installed and updated. It’s also important to adjust the screen reader settings to match your preferences. For instance, modifying the speech rate and verbosity can make navigation more comfortable. See second video on proper setup of windows11 settings.
Enhance Experience with AI
Moreover, installing and configuring additional assistive software can enhance your experience. Programs like MathKicker.AI and MathCat in WORD improve accessibility for mathematical content. These tools integrate seamlessly with screen readers, providing a more inclusive environment.
Lastly, securing your computer is vital. Enable strong passwords and two-factor authentication to protect your data. Regularly updating your antivirus software will also safeguard your system from potential threats.
Thus, setting up a Windows 11 computer for screen reader users involves careful configuration. By following these steps, users can achieve the best performance and efficiency. This ensures a more accessible and productive computing experience.
Desmos, JAWS, and Embossing: Enhancing STEM Learning for Visually Impaired Students
Access graphing and digital tools with screen readers for Science, Technology, Engineering, and Mathematics. These tools provide graphing access, enabling students with blindness or low vision to excel in STEM fields. For instance, they can utilize graphing capabilities on the computer by employing DESMOS graphing calculator and other Desmos solutions, just as peers. Moreover, Blind students can access STEM. They can emboss graphs, feeling content in real time. By using screen readers like JAWS or NVDA, braille displays and embossers, they can emboss out a graph to “see” what it feels like to finish STEM work quickly and efficiently.
Access to STEM begins with a PC equipped with screen readers like JAWS and refreshable braille displays. With these tools, you can explore integrated accessibility features and learn to configure JAWS and Fusion on the Desmos Accessibility page. Additionally, audio features, provided by Desmos, give spoken graph summaries, audible readings of points, coordinates, and more. Therefore, Desmos with JAWS and Embossing Techniques enables blind students to access STEM anytime.
Furthermore, TechVision site offers more STEM options, expanding information for other lessons on Desmos, graphing and math in full details including AI programs to enable students to complete math to the most advanced levels using Mathkicker.AI to compete with sighted peers at any level.
To emboss graphs and insert them into math work, start by using the Desmos graphing calculator. Desmos offers an intuitive platform for creating precise graphs, making it ideal for educational settings. Begin by plotting the necessary mathematical functions or data points on Desmos. The calculator’s user-friendly interface allows for easy manipulation and customization of graphs, ensuring they meet your exact needs.
After creating the graph, export it as an image. Desmos provides options to download the graph in various formats, such as PNG. Once downloaded, you can insert this image into your math document. Whether you’re using Microsoft Word, Google Docs, or another word processor, simply embed the graph as an image. This step integrates the visual data directly into your math work, making it more comprehensive for both teachers and students.
Next, prepare the document for embossing. If you’re working with visually impaired students, use software like Braille Blaster to convert the document into Braille. While the text content will convert directly, the graph requires special handling. This is where embossing comes in. By using an embosser, you can transform the visual graph into a tactile format that students can feel and understand.
Furthermore, this workflow ensures that math assignments are accessible to all students, regardless of visual ability. Teachers can also annotate the graphs before embossing, adding labels or descriptions to enhance understanding. This process not only aids in teaching but also reinforces the student’s learning experience.
The combination of Desmos for graph creation and embossing for tactile output makes for a powerful educational tool. It bridges the gap between visual and tactile learning, providing an inclusive approach to math education. By following these steps, educators can effectively integrate graphs into math work, ensuring that all students have the tools they need to succeed.
In this video, Dr. Denise Robinson guides Tay in proper Braille Math Editor Mode on her FOCUS Display. The session begins with Dr. Robinson reminding Tay how to change the computer’s mode to “contracted out/computer in.” This change ensures proper Braille math output, which simplifies the process and reduces errors.
Dr. Robinson then encourages Tay to use the Braille Math Editor with confidence, using her 2 knuckles on her right hand and 1 pointer finger on her left hand. She goes onto explain that the chosen mode automatically handles many aspects of math input. This approach allows Tay to focus more effectively on solving problems.
Next, Tay is guided through various math problems, including division and multiplication. Dr. Robinson carefully ensures that Tay understands how to input problems correctly into the Braille Math Editor. For division tasks, she provides clear instructions on entering Braille codes and following the correct sequences.
Furthermore, Dr. Robinson emphasizes the importance of memorizing math facts. She highlights how strong basic math skills can significantly improve accuracy and speed. Through consistent practice and repetition, Tay begins to reinforce these essential concepts.
As the session continues, Tay receives positive reinforcement, which helps her gain confidence. With each task, Tay requires fewer prompts, showing her growing independence in handling math problems.
Finally, Dr. Robinson concludes by praising Tay’s progress. She expresses confidence in Tay’s continued improvement and emphasizes that ongoing practice will help Tay master essential math skills. Dr. Robinson also reassures Tay that she will become more comfortable using the Braille Math Editor with time.
Overall, this session reflects Dr. Robinson’s commitment to fostering independence and competence in her students using proper Braille Math Editor Mode. She ensures they have the necessary tools and confidence to succeed academically. This methodical approach helps students like Tay build a strong foundation for future learning and problem-solving. To further learning, Embossing math using Braille Blaster or graphics using Tiger will always increase understanding of math in general.
Lucas, a blind individual, demonstrates JAWS Commands using AI Descriptions and how to effectively use ChatGPT with DALL-E to generate and describe images. Starting with ChatGPT, Lucas opens the platform, which places him directly in the edit box. To navigate out, he presses the “up arrow” key. He then maximizes the screen with “Windows + up arrow,” enhancing readability for JAWS.
Next, Lucas demonstrates how to locate the DALL-E AI Description image generator by accessing the links list using Jaws Commands with “Caps Lock + F7.” He navigates to the search box using the “E” key and types “DALL-E” in all capitals, with the period included. After pressing “Enter,” he tabs through the search results until he finds the relevant link, then presses “Enter” again to open it.
Once inside the image generator, Lucas describes the process of inputting a prompt. He emphasizes the importance of being specific, including details about the setting, characters, and art style. For instance, he generates an image of a wizard casting a spell on a cliff-side in a realistic art style. By pressing “Enter,” the image generation process begins, typically producing two images by default. He demonstrates how to make the inaccessible-accessible.
To download an image, Lucas uses “Shift + B” to find the “Show Image” button, followed by pressing “Enter” and then down arrow to the “Download Image” button. He encounters a warning about the dialog not being focused, while the download proceeds. Remember to Email your beautiful creations to someone also.
For image descriptions, Lucas follows a similar process to find the “Image Description Assistant” link. After inputting his request and attaching the image file, he waits for the description to generate. To review the description, Lucas uses “Shift + G” to jump to the top of the graphic, then down arrows to read it. This methodical approach allows Lucas to create detailed images and receive comprehensive descriptions efficiently.
AI has transformed how screen reader users access their world, MathKicker.AI is a powerful MATH app that allows top level Math work. Do not let Low Vision issues or legal blindness stop you from accelerating in school.
Dr. Robinson introduces the Desmos 3D Graphing tool, an essential resource for educators working with blind and low vision students. This tool allows users to create and manipulate 3D objects, enhancing the learning experience for students who require tactile or visual aids. As a teacher of the blind, Dr. Robinson emphasizes the importance of providing accessible 3D objects that students can manipulate as they learn. She demonstrates how to use Desmos 3D Graphing, starting with a simple circle and transforming it into a 3D cylinder.
Throughout the demonstration, Dr. Robinson highlights the seamless integration of Desmos 3D Graphing with braille displays, ensuring the content is accessible to students with visual impairments. She manipulates the cylinder’s size and shape using various commands, showing how easy it is to adjust these parameters in real-time. This hands-on approach allows students to understand the relationship between mathematical equations and their 3D representations. A 3D printer can create image or acquire an actual can of soup to compare to a circle/cylinder for further student understanding.
Image of Cylinder created with Desmos 3-D Graphing
Dr. Robinson further explores Desmos 3D Graphing by adjusting a parabola into different shapes, including a “blob” that can be physically modeled using clay. This tactile method helps blind students grasp the concept of changing variables and their impact on the graph’s shape. The ability to adjust and visualize these graphs is particularly beneficial for students preparing for tests or needing to solidify their understanding of complex mathematical concepts. For real time learning, either 3-D emboss or 2-D emboss graphs. For ease, hand molding clay is cheap and easy for any object
In addition to demonstrating the tool’s functionality, Dr. Robinson encourages users to explore more on the Desmos website, including the blog and available shortcuts. The continuous improvements in Desmos 3D Graphing make it a powerful tool for blind and low vision students. By integrating this tool into their learning process, educators can significantly enhance the accessibility and engagement of math lessons. Desmos 3D Graphing provides an invaluable resource for making advanced math concepts accessible to all students. Regardless of their visual abilities, you can access Desmos Lessons.
Dr. Robinson explains in video how to reduce a large PDF to just a few pages, so anyone can “copy” just a few pages out as needed or convert a whole inaccessible PDF to something accessible with a screen reader. She begins with a blurry PDF of “A Tale of Two Cities,” demonstrating how it turns blue when clicked, or a screen reader saying “empty document”. To make the PDF more manageable, she uses the “Control + P” command, which is the universal print command across browsers. She selects “Microsoft Print to PDF” from the printer options and then uses “Alt + G” to navigate quickly to the page selection. After selecting only two pages to save, she names the file and saves it to her downloads folder using “Alt + D” followed by “Alt + S.”
Next, Dr. Robinson uses MathKicker.AI, an AI program typically for math conversions but also converts anything to convert the PDF to a DOCX file. She opens Math Kicker, navigates to the convert to PDF button by pressing “B,” and waits for it to convert. Once the conversion is complete, she accesses the converted file using “Control + J” in a browser or “Windows + E” to open the file explorer. In file explorer and selects the newly saved PDF from her downloads folder.
Print Options to reduce a PDF
After verifying that the correct pages were saved, she adjusts the viewing size to 200% using “Alt + V” and then “Z” to make the text more readable in WORD. The text appears flawless, making it easy for screen readers to process and read aloud.
Dr. Robinson emphasizes that this method is particularly useful for low vision or blind students, allowing them to access only the necessary pages of a large PDF and allowing them to use a screen reader to read content. This approach also benefits fully sighted users who may struggle with poor-quality images. By converting and saving specific pages, users can create clear, readable text from even the blurriest PDFs. There are AI programs on the WEB that will do this also.
