Keywords: Pinhole Camera (8)

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C. C. Jones: Scientific Photographs
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C. C. Jones: Scientific Photographs

This image gallery, by C. C. Jones of Union College, contains many ... (more)

This image gallery, by C. C. Jones of Union College, contains many examples of physical optics and also x-ray diffraction. Several images of diffraction show how the pattern changes when the wavelength, the distance between light sources, and the aperture is varied. Also included are pinhole photos and comparisons of emission spectra of various elements and the absorption spectrum of the sun. Captions provide background information. (less)

Subject:
Mathematics
Engineering
Physics
Space Science
Material Type:
Images and Illustrations
Provider:
ComPADRE Digital Library
Provider Set:
ComPADRE: Resources for Physics and Astronomy Education
Making Oatmeal Box Pinhole Cameras
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Making Oatmeal Box Pinhole Cameras

This web site provides step-by-step directions for constructing a pinhole camera out ... (more)

This web site provides step-by-step directions for constructing a pinhole camera out of an oatmeal box and other common household items. Each step is supplemented with photos to show exactly how to build the apparatus so that it will actually take pictures. Also included are detailed procedures for shooting the photographs and developing them in an amateur darkroom. <i>**NOTE: If performing this activity with children, follow safety procedures for using the photo developing agent. SEE THIS LINK for safety information on Kodak Dektol:</i> http://www2.itap.purdue.edu/msds/docs/9735.pdf (less)

Subject:
Mathematics
Engineering
Physics
Education
Material Type:
Activities and Labs
Instructional Material
Lesson Plans
Provider:
ComPADRE Digital Library
Provider Set:
ComPADRE: Resources for Physics and Astronomy Education
Author:
Stewart Woodruff
OPPS: Nature of Light
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OPPS: Nature of Light

This guide to a workshop for primary teachers provides an introduction to ... (more)

This guide to a workshop for primary teachers provides an introduction to the concepts of light. It is designed to provide teachers with an inquiry-based learning experience for the basic concepts of how light is created and observed. A particle model for light is used because the concepts are simpler than for a wave model. It is part of the Operation Primary Physical Science materials. (less)

Subject:
Mathematics
Engineering
Life Science
Physics
Education
Material Type:
Activities and Labs
Assessments
Instructional Material
Lecture Notes
Lesson Plans
Provider:
ComPADRE Digital Library
Provider Set:
ComPADRE: Resources for Physics and Astronomy Education
Author:
Gayle Kirwin
Pictures Please: Traveling Light
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Pictures Please: Traveling Light

In this lesson, students learn that light travels in a straight line ... (more)

In this lesson, students learn that light travels in a straight line from a light source and that ray diagrams help us understand how an image will be created by a lens. In the accompanying activity, students explore the concepts behind the workings of a pinhole camera. (less)

Subject:
Mathematics and Statistics
Science and Technology
Engineering
Physics
Material Type:
Activities and Labs
Instructional Material
Lesson Plans
Provider:
TeachEngineering
Provider Set:
TeachEngineering
Author:
Abigail Watrous
Frank Burkholder
Integrated Teaching and Learning Program,
Janet Yowell
Luke Simmons
TeachEngineering.org
Practical Physics: Optics
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Practical Physics: Optics

This is a collection of more than 50 classroom experiments introducing users ... (more)

This is a collection of more than 50 classroom experiments introducing users to geometric optics and the ray model of light. Developed for use in high school science classrooms, each experiment focuses on practical applications of ray optics and is supplemented with full instructional procedures, safety guidelines, drawings/photos, and tips for teachers. Background information accompanies each activity, as well. <i>**Note: Most of the experiments require the use of a ray box or bright lamp, concave and convex lenses, and an optical bench. Items are readily available at scientific supply houses, with costs ranging from $300 to $1,500, depending upon the capabilities of the item purchased.</i> This item is part of a much larger collection of physics/astronomy experiments, sponsored by the UK's Institute of Physics and funded by the Nuffield Curriculum Centre. <b>SEE RELATED ITEMS BELOW</b> for a link to the full collection. (less)

Subject:
Mathematics
Engineering
Life Science
Physics
Education
Material Type:
Activities and Labs
Instructional Material
Lesson Plans
Simulations
Provider:
ComPADRE Digital Library
Provider Set:
ComPADRE: Resources for Physics and Astronomy Education
Author:
Nuffield Curriculum Centre
Practical Physics: Pinhole Camera and Lens Camera
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Practical Physics: Pinhole Camera and Lens Camera

This is a classroom lab for grades 6-12 designed to allow students ... (more)

This is a classroom lab for grades 6-12 designed to allow students to compare the action of a pinhole camera and a lens camera. It gives directions for setting up a carbon filament lamp as the light source, plus technical tips provided by a physicist for getting best results. Required materials include a +7D lens and the pinhole camera itself, which can be constructed by students (see below for link). This item is part of a much larger collection of physics/astronomy experiments, sponsored by the UK's Institute of Physics and funded by the Nuffield Curriculum Centre. <b>SEE RELATED ITEMS ON THIS PAGE</b> for a link to detailed instructions for building the pinhole camera box. (less)

Subject:
Mathematics
Engineering
Physics
Education
Material Type:
Activities and Labs
Instructional Material
Lesson Plans
Provider:
ComPADRE Digital Library
Provider Set:
ComPADRE: Resources for Physics and Astronomy Education
Author:
Nuffield Curriculum Centre
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2002 llaF ,gnivloS melborP gnireenignE dna sretupmoC ot noitcudortnI

.desu si egaugnal gnimmargorp avaJ ehT .gninnalp dna ,tnemeganam ,ecneics ,gnireenigne ni ... (more)

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