Curated OER
Typical Numeric Questions for Physics I - Light and Optics
Nineteen word problems dealing with frequency, speed, reflection, and refraction of light are provided here. Empower your physics masters to manipulate equations for computing angles, focal lengths, image heights, and more! This is a...
Curated OER
Typical Conceptual Questions for Physics I - Light and Quantum
This is a stellar overview of everything light and quantum! There are 30 multiple choice questions, none of them requiring any mathematical computation. There are a few diagrams to analyze: light rays striking reflective and refractive...
Curated OER
Spherical Mirrors
Some formatting issues will need repair (a few overlapping text boxes and pictures), but overall this is a comprehensive presentation on how light reflects off of spherical mirrors. Both convex and concave mirrors are explained,...
Physics LAB
Spherical Mirror: Equation #1
For this spherical mirrors worksheet, students answer 14 questions about convex and concave mirrors and the images formed in each. They determine if images are real or virtual, if they are upright or inverted, the focal length of the...
Physics LAB
Spherical Mirror Equation #2
For this spherical mirror worksheet, learners are given diagrams of concave spherical mirrors, their focal points and an object. Students answer 10 questions about the location of the images, the size of the images and the height of the...
Curated OER
Planning a Funhouse
In this mirrors worksheet, students will design and draw their creation of a "Crazy Mirror Room." They must use a combination of convex, concave, and plane mirrors and they must write a description of what a person's reflection would...
Physics LAB
Spherical Mirrors
In this mirrors worksheet, students identify the equation that describes the relationship between the mirror's focal length and its radius. Students compare images reflected through concave mirrors and different distances. This worksheet...
Curated OER
Microscope-Convex Mirrors
Eighth graders are able to understand how convex mirrors are used in a microscope. They are able to identify the focus and focal length of a curved mirror and observe virtual images in a convex mirror.