Science - 2018-19
PS.9 c, e - Lenses & Mirrors
The student will investigate and understand the characteristics of transverse waves. Key concepts include
c) images formed by lenses and mirrors;
e) technological applications of light.
Bloom's Levels: Analyze; Understand
- Mirrors and lenses can distort an object's size, shape, or orientation.
- Waves have a variety of applications, including communication.
- I can explain how glasses help me see better.
- I can describe how barcode scanners work.
UNDERSTANDING THE STANDARD
- Radiant energy travels in straight lines until it strikes an object where it can be reflected, absorbed, or transmitted. As visible light travels through different media, it undergoes a change in speed that may result in refraction.
- Plane, concave, and convex mirrors all reflect light. Convex mirrors diverge light and produce a smaller, upright image. Concave mirrors converge light and produce an upright, magnified image if close and an inverted, smaller image if far away.
- Concave and convex lenses refract light. Convex lenses converge light. Concave lenses diverge light. †
- Diffraction is when light waves strike an obstacle and new waves are produced.
- Interference takes place when two or more waves overlap and combine as a result of diffraction.
In order to meet this standard, it is expected that students will
c) identify the images formed by lenses and mirrors.
e) describe an everyday application of each of the major forms of electromagnetic energy.
reflection, refraction, diffraction, interference, electromagnetic spectrum, electromagnetic radiation, transverse, gamma waves, x-rays, ultraviolet, visible light, infrared, radio waves, microwaves