Philip Harris Foundation Physics - Optics Bench
Philip Harris Foundation Physics - Optics Bench
Product code: AP00054190
Product Description
Foundation Physics - Optics Bench
Please Note: The Foundation Physics Universal Stand and a 12V Power Supply are not included with the Optics Bench and will need to be purchased separately using codes PP00054183 and B8G85458.
- The Foundation Physics range centres around the Universal Stand and includes accessories which allow a wide range of experiments to be conducted. Each add-on includes a comprehensive instructional guide with student tasks which are linked to the curriculum. The Universal Stand is required for each add-on.
When combined with the Foundation Physics Universal Stand, this Optics Bench can offer your students a hands-on experience with geometric optics, demonstrating polarization, colour mixing, and more. The unique design of this device uses supports that attach to the Foundation Physics Universal Stand as a horizontal bar and creates a student-friendly optical bench for many experiments. Includes four colour filters; two polarizing lenses; support brackets; light source; support stand; and two each of concave, convex lenses, and mirrors; all securely organized in a sturdy storage container.
This Optics Bench includes:
- 1 x Optics Bench
- 3 x Light Source
- 2 x Concave and Convex Mirrors
- 2 x Concave and Convex Lenses
- 1 x Projection Screen
- 2 x Polarising Filters
- 5 x Sliding Support Mounts
- 4 x Colour Filters
- 1 x Object Plate with #1
- 1 x Single and Triple Slit Plate
- 1 x Double Slit Holder
- 2 x Lens/Mirror Holders
- Instructions
- Teachers Guide
- Students Guide
Additional apparatus required:
- Foundation Physics Universal Stand
- 12V Power Supply and Connecting Leads (4mm stackable plug leads)
- Laser Pointer
- Objects of various different colours
- Combine with the Foundation Physics Universal Stand (available separately) to teach around and demonstrate Optics.
- Suitable for staff and student use.
- The Foundation Physics range centres around the Universal Stand and includes accessories which allow a wide range of experiments to be conducted. Each add-on includes a comprehensive instructional guide with student tasks which are linked to the curriculum.
- Key Stage 3 Physics - Waves: Use of ray model to explain imaging in mirrors, the pinhole camera, the refraction of light and action of convex lens in focusing (qualitative). The human eye. The similarities and differences between light waves and waves in matter
- Key Stage 4 Physics - Light: Ray Optics, Lenses and Mirrors, Polarisation, Colour FIltering
Activities could include investigations in to:
- Converging Lenses
- Diverging Lenses
- Spherical Mirrors
- Polarisation
- Colour Filters
- Double Slit Experiment
Further Information
- Age Recommended from
- 11 Years
- Age Recommended to
- 18 Years
- Age Suitability Message
- Warning: This product is not a toyadult supervision is required at all times whilst is use
- Age Suitable from
- 11 Years
- Brand
- Philip Harris
- Operating Voltage
- 12V DC
- Product Type
- Optics Bench
- Range
- Foundation Physics
Documents
Useful Links
Foundation Physics - Optics Bench
Please Note: The Foundation Physics Universal Stand and a 12V Power Supply are not included with the Optics Bench and will need to be purchased separately using codes PP00054183 and B8G85458.
- The Foundation Physics range centres around the Universal Stand and includes accessories which allow a wide range of experiments to be conducted. Each add-on includes a comprehensive instructional guide with student tasks which are linked to the curriculum. The Universal Stand is required for each add-on.
When combined with the Foundation Physics Universal Stand, this Optics Bench can offer your students a hands-on experience with geometric optics, demonstrating polarization, colour mixing, and more. The unique design of this device uses supports that attach to the Foundation Physics Universal Stand as a horizontal bar and creates a student-friendly optical bench for many experiments. Includes four colour filters; two polarizing lenses; support brackets; light source; support stand; and two each of concave, convex lenses, and mirrors; all securely organized in a sturdy storage container.
This Optics Bench includes:
- 1 x Optics Bench
- 3 x Light Source
- 2 x Concave and Convex Mirrors
- 2 x Concave and Convex Lenses
- 1 x Projection Screen
- 2 x Polarising Filters
- 5 x Sliding Support Mounts
- 4 x Colour Filters
- 1 x Object Plate with #1
- 1 x Single and Triple Slit Plate
- 1 x Double Slit Holder
- 2 x Lens/Mirror Holders
- Instructions
- Teachers Guide
- Students Guide
Additional apparatus required:
- Foundation Physics Universal Stand
- 12V Power Supply and Connecting Leads (4mm stackable plug leads)
- Laser Pointer
- Objects of various different colours
- Combine with the Foundation Physics Universal Stand (available separately) to teach around and demonstrate Optics.
- Suitable for staff and student use.
- The Foundation Physics range centres around the Universal Stand and includes accessories which allow a wide range of experiments to be conducted. Each add-on includes a comprehensive instructional guide with student tasks which are linked to the curriculum.
- Key Stage 3 Physics - Waves: Use of ray model to explain imaging in mirrors, the pinhole camera, the refraction of light and action of convex lens in focusing (qualitative). The human eye. The similarities and differences between light waves and waves in matter
- Key Stage 4 Physics - Light: Ray Optics, Lenses and Mirrors, Polarisation, Colour FIltering
Activities could include investigations in to:
- Converging Lenses
- Diverging Lenses
- Spherical Mirrors
- Polarisation
- Colour Filters
- Double Slit Experiment
Further Information
- Age Recommended from
- 11 Years
- Age Recommended to
- 18 Years
- Age Suitability Message
- Warning: This product is not a toyadult supervision is required at all times whilst is use
- Age Suitable from
- 11 Years
- Brand
- Philip Harris
- Operating Voltage
- 12V DC
- Product Type
- Optics Bench
- Range
- Foundation Physics