In these activities, students design and build scale models of a cabin. Floor plans and site surveys can be represented with raised-line drawings or manipulatives for students with visual impairments. The creation of a cardboard model cabin will present challenges to students with upper body mobility or fine motor impairments. Have students work with partners or in small groups so that each student can contribute according to his or her strengths. For information on suggested accommodations, select an activity below.
Consider the position, lighting, and seating needs of the student during presentations or when using text, manipulatives, transparencies or other projected images.
Request and encourage student input on how to best accommodate the student's learning needs.
Provide large-print lecture notes, handouts, and worksheets.
Consider computer accommodations for writing activities. 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. Consult the video presentation and publication Working Together: Computers and People with Sensory Impairments.
To find talking calculators, consult the National Federation of the Blind Independence Market Online.
Rulers, protractors, and other measurement tools are available in tactile and large-print format from the American Printing House for the Blind. Additional measurement devices can be found at AssisTech.
Use a scanner to create an electronic version of images, charts, or maps, and display them in a larger format on a computer monitor, or use an LCD projector.
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.
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.
Consider making shapes for flow charts or room layouts from tagboard or foam core for the student to manipulate.
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.
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.
Use tactile accommodations of graphic materials:
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.
Request and encourage student input on how to best accommodate the student's learning needs.
Provide a sign language interpreter, real-time captioning, and/or an FM system.
Use visual aids to explain concepts to the student.
Give assignments, lab instructions, and demonstration summaries in writing.
Use electronic mail for class and private discussions.
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.
Request and encourage student input on how to best accommodate the student's learning needs.
In activities that require writing, consider computer accommodations. Use built-in word processor features such as the spelling checker and grammar checker. For more information, consult the video presentation and publication Working Together: Computers and People with Learning Disabilities.
Talking calculators may be appropriate for some students. For information on talking calculators, consult Independent Living Aids.
Consider reformatting documents to minimize clutter and/or providing materials in large-print format. Ask the student if this would be helpful.
Allow extra time for assignments and exams. Provide alternative testing arrangements.
Minimize distractions as much as possible. Keep the classroom door closed, and seat the student with attention deficits away from windows and other distractions.
Provide clear and specific instructions. Break down larger tasks into smaller chunks, and provide directions for only one or two activities at a time.
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.
Request and encourage student input on how to best accommodate the student's learning needs.
Assure that classrooms and labs are in wheelchair-accessible locations.
Support the student's use of a computer equipped with a special input device (e.g., voice input, Morse code, alternative keyboard) whenever appropriate. For more information, consult the video presentation and publication Working Together: Computers and People with Mobility Impairments or the AccessSTEM Knowledge Base.
Because this unit involves manipulation of small objects, make adjustments for a student with upper body mobility impairment or fine motor coordination issues; sometimes working with a partner is effective. Also, consult lab design recommendations for students with mobility impairments at AssisTech.
Consider providing a note taker.
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.
Request and encourage student input on how to best accommodate the student's learning needs.
Provide a mechanism for students to learn material and make up assignments that they missed because of absences.
Provide flexibility in scheduling and attendance.
Talk with the student and family about any impacts of class activities on the student. Let the student know well ahead of time of classroom activities that may present a problem.
For additional information, see Disability-Related Resources on the Internet: Health Impairments.
Provide class assignments ahead of time in electronic format. Avoid last-minute additions to assignments.
Use email to facilitate communication and class discussion.
Consider providing a note taker.
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.
Request and encourage student input on how to best accommodate the student's learning needs.
Establish and honor classroom schedules and practices. Let the student know ahead of time of any changes to the classroom routines.
In group activities, assign the student to a group with supportive peers. Provide clear instructions so that students know exactly what is expected of them.
Help the student learn to anticipate situations that will be difficult and to plan in advance appropriate response strategies.
Consider providing a quiet area where the student can take a time-out if necessary.
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.
Consider the position, lighting, and seating needs of the student during presentations or when using text, manipulatives, transparencies or other projected images.
Request and encourage student input on how to best accommodate the student's learning needs.
Provide large-print lecture notes, handouts, and worksheets.
To find talking calculators, consult the National Federation of the Blind Independence Market Online.
Enlarge computer screen characters and images. For more information, consult the video presentation and publication Working Together: Computers and People with Sensory Impairments or the AccessSTEM Knowledge Base.
Rulers, protractors, and other measurement tools are available in tactile and large-print format from the American Printing House for the Blind. Additional measurement devices can be found at AssisTech.
Use a scanner to create an electronic version of images, charts, or maps, and display them in a larger format on a computer monitor, or use an LCD projector.
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.
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.
Use tactile accommodations of graphic materials:
Braille or tactile stick-on labels can serve the purpose of color coding for students who are blind. They are available from AssisTech.
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.
Request and encourage student input on how to best accommodate the student's learning needs.
Provide a sign language interpreter, real-time captioning, and/or an FM system.
Use visual aids to explain concepts to the student.
Give assignments, lab instructions, and demonstration summaries in writing.
Use electronic mail for class and private discussions.
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.
Request and encourage student input on how to best accommodate the student's learning needs.
Talking calculators may be appropriate for some students. For information on talking calculators, consult Independent Living Aids.
Minimize distractions as much as possible. Keep the classroom door closed, and seat the student with attention deficits away from windows and other distractions.
Provide clear and specific instructions. Break down larger tasks into smaller chunks, and provide directions for only one or two activities at a time.
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.
Request and encourage student input on how to best accommodate the student's learning needs.
Assure that classrooms and labs are in wheelchair-accessible locations.
Support the student's use of a computer equipped with a special input device (e.g., voice input, Morse code, alternative keyboard) whenever appropriate. For more information, consult the video presentation and publication Working Together: Computers and People with Mobility Impairments or the AccessSTEM Knowledge Base.
Because this unit involves manipulation of small objects, make adjustments for a student with upper body mobility impairment or fine motor coordination issues; sometimes working with a partner is effective. Also, consult lab design recommendations for students with mobility impairments at AssisTech.
Consider providing a note taker.
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.
Request and encourage student input on how to best accommodate the student's learning needs.
Provide a mechanism for students to learn material and make up assignments that they missed because of absences.
Provide flexibility in scheduling and attendance.
Talk with the student and family about any impacts of class activities on the student. Let the student know well ahead of time of classroom activities that may present a problem.
For additional information, see Disability-Related Resources on the Internet: Health Impairments.
Provide class assignments ahead of time in electronic format. Avoid last-minute additions to assignments.
Use email to facilitate communication and class discussion.
Consider providing a note taker.
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.
Request and encourage student input on how to best accommodate the student's learning needs.
Establish and honor classroom schedules and practices. Let the student know ahead of time of any changes to the classroom routines.
In group activities, assign the student to a group with supportive peers. Provide clear instructions so that students know exactly what is expected of them.
Help the student learn to anticipate situations that will be difficult and to plan in advance appropriate response strategies.
Consider providing a quiet area where the student can take a time-out if necessary.
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.
Consider the position, lighting, and seating needs of the student during presentations or when using text, manipulatives, transparencies or other projected images.
Request and encourage student input on how to best accommodate the student's learning needs.
Provide large-print lecture notes, handouts, and worksheets.
Consider computer accommodations for writing activities. 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. Consult the video presentation and publication Working Together: Computers and People with Sensory Impairments.
To find talking calculators, consult the National Federation of the Blind Independence Market Online.
Rulers, protractors, and other measurement tools are available in tactile and large-print format from the American Printing House for the Blind. Additional measurement devices can be found at AssisTech.
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.
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.
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.
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.
Consider making shapes for flow charts or room layouts from tagboard or foam core for the student to manipulate.
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.
Request and encourage student input on how to best accommodate the student's learning needs.
Provide a sign language interpreter, real-time captioning, and/or an FM system.
Use visual aids to explain concepts to the student.
Give assignments, lab instructions, and demonstration summaries in writing.
Use electronic mail for class and private discussions.
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.
Request and encourage student input on how to best accommodate the student's learning needs.
Use computers and assistive software for organizing, concept mapping, and scheduling. Consult the video presentation and publication Working Together: Computers and People with Learning Disabilities and the AccessSTEM Knowledge Base.
In activities that require writing, consider computer accommodations. Use built-in word processor features such as the spelling checker and grammar checker. For more information, consult the video presentation and publication Working Together: Computers and People with Learning Disabilities.
Talking calculators may be appropriate for some students. For information on talking calculators, consult Independent Living Aids.
Allow extra time for assignments and exams. Provide alternative testing arrangements.
Minimize distractions as much as possible. Keep the classroom door closed, and seat the student with attention deficits away from windows and other distractions.
Provide clear and specific instructions. Break down larger tasks into smaller chunks, and provide directions for only one or two activities at a time.
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.
Request and encourage student input on how to best accommodate the student's learning needs.
Assure that classrooms and labs are in wheelchair-accessible locations.
Support the student's use of a computer equipped with a special input device (e.g., voice input, Morse code, alternative keyboard) whenever appropriate. For more information, consult the video presentation and publication Working Together: Computers and People with Mobility Impairments or the AccessSTEM Knowledge Base.
Because this unit involves manipulation of small objects, make adjustments for a student with upper body mobility impairment or fine motor coordination issues; sometimes working with a partner is effective. Also, consult lab design recommendations for students with mobility impairments at AssisTech.
Consider providing a note taker.
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.
Request and encourage student input on how to best accommodate the student's learning needs.
Provide a mechanism for students to learn material and make up assignments that they missed because of absences.
Provide flexibility in scheduling and attendance.
Talk with the student and family about any impacts of class activities on the student. Let the student know well ahead of time of classroom activities that may present a problem.
For additional information, see Disability-Related Resources on the Internet: Health Impairments.
Provide class assignments ahead of time in electronic format. Avoid last-minute additions to assignments.
Use email to facilitate communication and class discussion.
Consider providing a note taker.
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.
Request and encourage student input on how to best accommodate the student's learning needs.
Establish and honor classroom schedules and practices. Let the student know ahead of time of any changes to the classroom routines.
In group activities, assign the student to a group with supportive peers. Provide clear instructions so that students know exactly what is expected of them.
Help the student learn to anticipate situations that will be difficult and to plan in advance appropriate response strategies.
Consider providing a quiet area where the student can take a time-out if necessary.
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.
Consider the position, lighting, and seating needs of the student during presentations or when using text, manipulatives, transparencies or other projected images.
Request and encourage student input on how to best accommodate the student's learning needs.
Provide large-print lecture notes, handouts, and worksheets.
Consider computer accommodations for writing activities. 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. Consult the video presentation and publication Working Together: Computers and People with Sensory Impairments.
To find talking calculators, consult the National Federation of the Blind Independence Market Online.
Rulers, protractors, and other measurement tools are available in tactile and large-print format from the American Printing House for the Blind. Additional measurement devices can be found at AssisTech.
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.
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.
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.
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.
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.
Request and encourage student input on how to best accommodate the student's learning needs.
Provide a sign language interpreter, real-time captioning, and/or an FM system.
Use visual aids to explain concepts to the student.
Give assignments, lab instructions, and demonstration summaries in writing.
Use electronic mail for class and private discussions.
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.
Request and encourage student input on how to best accommodate the student's learning needs.
In activities that require writing, consider computer accommodations. Use built-in word processor features such as the spelling checker and grammar checker. For more information, consult the video presentation and publication Working Together: Computers and People with Learning Disabilities.
Talking calculators may be appropriate for some students. For information on talking calculators, consult Independent Living Aids.
Consider reformatting documents to minimize clutter and/or providing materials in large-print format. Ask the student if this would be helpful.
Allow extra time for assignments and exams. Provide alternative testing arrangements.
Minimize distractions as much as possible. Keep the classroom door closed, and seat the student with attention deficits away from windows and other distractions.
Provide clear and specific instructions. Break down larger tasks into smaller chunks, and provide directions for only one or two activities at a time.
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.
Request and encourage student input on how to best accommodate the student's learning needs.
Assure that classrooms and labs are in wheelchair-accessible locations.
Support the student's use of a computer equipped with a special input device (e.g., voice input, Morse code, alternative keyboard) whenever appropriate. For more information, consult the video presentation and publication Working Together: Computers and People with Mobility Impairments or the AccessSTEM Knowledge Base.
Because this unit involves manipulation of small objects, make adjustments for a student with upper body mobility impairment or fine motor coordination issues; sometimes working with a partner is effective. Also, consult lab design recommendations for students with mobility impairments at AssisTech.
Consider providing a note taker.
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.
Request and encourage student input on how to best accommodate the student's learning needs.
Provide a mechanism for students to learn material and make up assignments that they missed because of absences.
Provide flexibility in scheduling and attendance.
Talk with the student and family about any impacts of class activities on the student. Let the student know well ahead of time of classroom activities that may present a problem.
For additional information, see Disability-Related Resources on the Internet: Health Impairments.
Provide class assignments ahead of time in electronic format. Avoid last-minute additions to assignments.
Use email to facilitate communication and class discussion.
Consider providing a note taker.
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.
Request and encourage student input on how to best accommodate the student's learning needs.
Establish and honor classroom schedules and practices. Let the student know ahead of time of any changes to the classroom routines.
In group activities, assign the student to a group with supportive peers. Provide clear instructions so that students know exactly what is expected of them.
Help the student learn to anticipate situations that will be difficult and to plan in advance appropriate response strategies.
Consider providing a quiet area where the student can take a time-out if necessary.
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.
Consider the position, lighting, and seating needs of the student during presentations or when using text, manipulatives, transparencies or other projected images.
Request and encourage student input on how to best accommodate the student's learning needs.
Provide large-print lecture notes, handouts, and worksheets.
To find talking calculators, consult the National Federation of the Blind Independence Market Online.
Enlarge computer screen characters and images. For more information, consult the video presentation and publication Working Together: Computers and People with Sensory Impairments or the AccessSTEM Knowledge Base.
Rulers, protractors, and other measurement tools are available in tactile and large-print format from the American Printing House for the Blind. Additional measurement devices can be found at AssisTech.
Use a scanner to create an electronic version of images, charts, or maps, and display them in a larger format on a computer monitor, or use an LCD projector.
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.
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.
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.
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.
Consider making shapes for flow charts or room layouts from tagboard or foam core for the student to manipulate.
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.
Request and encourage student input on how to best accommodate the student's learning needs.
Provide a sign language interpreter, real-time captioning, and/or an FM system.
Use visual aids to explain concepts to the student.
Give assignments, lab instructions, and demonstration summaries in writing.
Use electronic mail for class and private discussions.
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.
Request and encourage student input on how to best accommodate the student's learning needs.
In activities that require writing, consider computer accommodations. Use built-in word processor features such as the spelling checker and grammar checker. For more information, consult the video presentation and publication Working Together: Computers and People with Learning Disabilities.
Talking calculators may be appropriate for some students. For information on talking calculators, consult Independent Living Aids.
Allow extra time for assignments and exams. Provide alternative testing arrangements.
Minimize distractions as much as possible. Keep the classroom door closed, and seat the student with attention deficits away from windows and other distractions.
Provide clear and specific instructions. Break down larger tasks into smaller chunks, and provide directions for only one or two activities at a time.
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.
Request and encourage student input on how to best accommodate the student's learning needs.
Assure that classrooms and labs are in wheelchair-accessible locations.
Support the student's use of a computer equipped with a special input device (e.g., voice input, Morse code, alternative keyboard) whenever appropriate. For more information, consult the video presentation and publication Working Together: Computers and People with Mobility Impairments or the AccessSTEM Knowledge Base.
Because this unit involves manipulation of small objects, make adjustments for a student with upper body mobility impairment or fine motor coordination issues; sometimes working with a partner is effective. Also, consult lab design recommendations for students with mobility impairments at AssisTech.
Consider providing a note taker.
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.
Request and encourage student input on how to best accommodate the student's learning needs.
Provide a mechanism for students to learn material and make up assignments that they missed because of absences.
Provide flexibility in scheduling and attendance.
Talk with the student and family about any impacts of class activities on the student. Let the student know well ahead of time of classroom activities that may present a problem.
For additional information, see Disability-Related Resources on the Internet: Health Impairments.
Provide class assignments ahead of time in electronic format. Avoid last-minute additions to assignments.
Use email to facilitate communication and class discussion.
Consider providing a note taker.
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.
Request and encourage student input on how to best accommodate the student's learning needs.
Establish and honor classroom schedules and practices. Let the student know ahead of time of any changes to the classroom routines.
In group activities, assign the student to a group with supportive peers. Provide clear instructions so that students know exactly what is expected of them.
Help the student learn to anticipate situations that will be difficult and to plan in advance appropriate response strategies.
Consider providing a quiet area where the student can take a time-out if necessary.
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.
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.
Consider making shapes for flow charts or room layouts from tagboard or foam core for the student to manipulate.
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.
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.
Use tactile accommodations of graphic materials:
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.
Braille or tactile stick-on labels can serve the purpose of color coding for students who are blind. They are available from AssisTech.
Request and encourage student input on how to best accommodate the student's learning needs.
Provide a mechanism for students to learn material and make up assignments that they missed because of absences.
Provide flexibility in scheduling and attendance.
Talk with the student and family about any impacts of class activities on the student. Let the student know well ahead of time of classroom activities that may present a problem.
For additional information, see Disability-Related Resources on the Internet: Health Impairments.
Provide class assignments ahead of time in electronic format. Avoid last-minute additions to assignments.
Use email to facilitate communication and class discussion.
Consider providing a note taker.
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.
Request and encourage student input on how to best accommodate the student's learning needs.
Provide a sign language interpreter, real-time captioning, and/or an FM system.
Use visual aids to explain concepts to the student.
Give assignments, lab instructions, and demonstration summaries in writing.
Use electronic mail for class and private discussions.
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.
Request and encourage student input on how to best accommodate the student's learning needs.
In activities that require writing, consider computer accommodations. Use built-in word processor features such as the spelling checker and grammar checker. For more information, consult the video presentation and publication Working Together: Computers and People with Learning Disabilities.
Talking calculators may be appropriate for some students. For information on talking calculators, consult Independent Living Aids.
Consider reformatting documents to minimize clutter and/or providing materials in large-print format. Ask the student if this would be helpful.
Allow extra time for assignments and exams. Provide alternative testing arrangements.
Minimize distractions as much as possible. Keep the classroom door closed, and seat the student with attention deficits away from windows and other distractions.
Provide clear and specific instructions. Break down larger tasks into smaller chunks, and provide directions for only one or two activities at a time.
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.
Use computers and assistive software for organizing, concept mapping, and scheduling. Consult the video presentation and publication Working Together: Computers and People with Learning Disabilities and the AccessSTEM Knowledge Base.
Consider the position, lighting, and seating needs of the student during presentations or when using text, manipulatives, transparencies or other projected images.
Request and encourage student input on how to best accommodate the student's learning needs.
Provide large-print lecture notes, handouts, and worksheets.
Consider computer accommodations for writing activities. 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. Consult the video presentation and publication Working Together: Computers and People with Sensory Impairments.
To find talking calculators, consult the National Federation of the Blind Independence Market Online.
Rulers, protractors, and other measurement tools are available in tactile and large-print format from the American Printing House for the Blind. Additional measurement devices can be found at AssisTech.
Use a scanner to create an electronic version of images, charts, or maps, and display them in a larger format on a computer monitor, or use an LCD projector.
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.
Enlarge computer screen characters and images. For more information, consult the video presentation and publication Working Together: Computers and People with Sensory Impairments or the AccessSTEM Knowledge Base.
Request and encourage student input on how to best accommodate the student's learning needs.
Assure that classrooms and labs are in wheelchair-accessible locations.
Support the student's use of a computer equipped with a special input device (e.g., voice input, Morse code, alternative keyboard) whenever appropriate. For more information, consult the video presentation and publication Working Together: Computers and People with Mobility Impairments or the AccessSTEM Knowledge Base.
Because this unit involves manipulation of small objects, make adjustments for a student with upper body mobility impairment or fine motor coordination issues; sometimes working with a partner is effective. Also, consult lab design recommendations for students with mobility impairments at AssisTech.
Consider providing a note taker.
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.
Request and encourage student input on how to best accommodate the student's learning needs.
Establish and honor classroom schedules and practices. Let the student know ahead of time of any changes to the classroom routines.
In group activities, assign the student to a group with supportive peers. Provide clear instructions so that students know exactly what is expected of them.
Help the student learn to anticipate situations that will be difficult and to plan in advance appropriate response strategies.
Consider providing a quiet area where the student can take a time-out if necessary.
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.