Blindness

Request and encourage student input on how to best accommodate the student's learning needs.

Provide audiotaped, Brailled, or electronic-formatted lecture notes, handouts, and texts.

Give clear verbal descriptions of visual aids including video and printed content used throughout your presentation.

To find calculators for students who are blind, consult the National Federation of the Blind Independence Market Online or American Printing House for the Blind.

Rulers, protractors, and other measuring tools are available in tactile and Braille format from the American Printing House for the Blind. Additional measurement devices can be found at AssisTech.

Adaptive lab equipment (e.g., talking thermometers, light probes, balance beams, tactile timers) can be found at AssisTech. For more information, consult the AccessSTEM Knowledge Base.

A Braille labeler or stylus can be found at MaxiAids.

Embossed graph paper is available from the American Printing House for the Blind. Additional high- and low-tech ideas for creating graphs are available from the Texas School for the Blind and Visually Impaired.

Consider the needs of students with disabilities during lab orientation and lab safety meetings.

Assign group activities in which all students take responsibility and contribute according to their abilities.

Use multiple formats—oral, written, visual, tactile, electronic—for instruction and demonstrations.

For general information about accommodations for students with disabilities in science classes, consult Working Together: Science Teachers and Students with Disabilities and The Winning Equation: Access + Attitude = Success in Math and Science.

For additional information, consult the

Request and encourage student input on how to best accommodate the student's learning needs.

Provide audiotaped, Brailled, or electronic-formatted lecture notes, handouts, and texts.

Give clear verbal descriptions of visual aids including video and printed content used throughout your presentation.

To find calculators for students who are blind, consult the National Federation of the Blind Independence Market Online or American Printing House for the Blind.

Rulers, protractors, and other measuring tools are available in tactile and Braille format from the American Printing House for the Blind. Additional measurement devices can be found at AssisTech.

Adaptive lab equipment (e.g., talking thermometers, light probes, balance beams, tactile timers) can be found at AssisTech. For more information, consult the AccessSTEM Knowledge Base.

A Braille labeler or stylus can be found at MaxiAids.

Embossed graph paper is available from the American Printing House for the Blind. Additional high- and low-tech ideas for creating graphs are available from the Texas School for the Blind and Visually Impaired.

Consider the needs of students with disabilities during lab orientation and lab safety meetings.

Assign group activities in which all students take responsibility and contribute according to their abilities.

Use multiple formats—oral, written, visual, tactile, electronic—for instruction and demonstrations.

For general information about accommodations for students with disabilities in science classes, consult Working Together: Science Teachers and Students with Disabilities and The Winning Equation: Access + Attitude = Success in Math and Science.

For additional information, consult the AccessSTEM Knowledge Base.

For writing activities, provide computer accommodations. Provide a document format that can be edited electronically by the student, such as an accessible PDF file, a Word document, or a plain text document. Consider a computer with optical character recognition, voice output, Braille screen display, and/or embossed Braille output. For more information, consult the video presentation and publication Working Together: Computers and People with Sensory Impairments or the AccessSTEM Knowledge Base.

Knowledge Base.

For writing activities, provide computer accommodations. Provide a document format that can be edited electronically by the student, such as an accessible PDF file, a Word document, or a plain text document. Consider a computer with optical character recognition, voice output, Braille screen display, and/or embossed Braille output. For more information, consult the video presentation and publication Working Together: Computers and People with Sensory Impairments or the AccessSTEM Knowledge Base.