Description
- Import of ECE
- Compatible with the curriculum
- Our experiment set can also be used in bright light conditions thanks to the multi-beam red laser light source
- It is possible to switch between 5 beams of the parallel beam laser light source
- One side of the quality acrylic lenses is frosted
- The set is presented in a locked aluminum carrying and storage box
Set Content:
- 5-Beam laser light source: Laser class II (1 mW). Power supply: 6.3 V. 1, 3, 5 beams can be opened with the buttons on the product
- Double convex lens
- Plain convex lens
- Double concave lens
- Rectangular prism
- Trapezoid prism
- Parallel-faced plate
- Flexible mirror (Can be used as flat, concave and convex, has an adjustable radius of curvature)
- Semicircular container (To measure the refractive index of liquids)
- PVC-coated working disk graduated in angles and millimeters
- Magnetic working disk graduated in angles and millimeters
- AC adapter
- Lens cleaning cloth
Targeted Gains:
- Realizes that light from a source spreads along lines.
- Indicates that light from a source can spread in every direction as long as it does not encounter an obstacle.
- Shows the path that light follows between two points by drawing rays.
- Classifies various substances as transparent, semi-transparent and non-transparent (opaque) according to their light transmittance.
- Finds whether a given substance is transparent by trying it.
- Gives examples of transparent, semi-transparent and non-transparent (opaque) substances from its surroundings.
- Discovers that light can be reflected when it encounters matter.
- Predicts the path that light reflected from flat surfaces will follow.
- Explains the reason why objects that are not sources of light can be seen with the reflection of light.
- In the reflection event; discovers that the incident light, the reflected light and the normal of the surface are on the same plane by using a plane mirror.
- In the reflection event; discovers that the angles of incidence and reflection are equal by using a plane mirror.
- Discovers regular and diffuse reflection.
- Relates the reasons why objects appear brighter or more matte to their light reflecting properties.
- Demonstrates regular and diffuse reflection by drawing rays.
- Realizes that light can be absorbed as a result of its interaction with matter.
- Observes that substances interacting with light heat up.
- Based on his observations, he infers that substances absorb light.
- States that light has a certain propagation speed.
- States that the speed of light changes when passing from a transparent medium to another transparent medium.
- Discovers that light changes direction when passing from a transparent medium to another transparent medium.
- Concludes that light beams approach the normal when passing from a low-refractive (low-density) transparent medium to a high-refractive (high-density) transparent medium, and move away from the normal when passing from a high-refractive (high-density) transparent medium to a low-refractive (low-density) transparent medium.
- Gives examples of situations where light is both refracted and reflected.
- Draws simple ray diagrams to explain the refraction phenomenon in various media.
- Compares the densities of the media by observing light beams changing direction between two media.
- Discovers by experiment that light cannot always pass from a high-refractive (high-density) medium to a low-refractive (low-density) medium.
- Gives examples of events that can be explained by the refraction of light.
- Discovers that light can be separated into colors by refraction in a prism.
- Examines the behavior of light in the reflection phenomenon and makes inferences.
- Explains the concept of refraction and gives examples of the refraction phenomenon.
- Analyzes the total reflection of light and the limiting angle. Draws the path that light follows while passing through a parallelepiped medium and explains the variables it depends on.
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