1. | transfer energy from one place to another. | A. | Image distance | |
2. | sening out the light. | B. | Energy | |
3. | the distance of the image. | C. | Heat | |
4. | ability to do work. | D. | Radiant | |
5. | energy that people can see. | E. | Focus | |
6. | the distance of the object. | F. | Wave | |
7. | a device that produces an intense beam of coherent monocromatic light. | G. | Electrons | |
8. | a shaped transparent materials that refracts light to create an image. | H. | Laser | |
9. | a line drawn thorugh the vertex, focus, and center of curvature of the mirror. | I. | Thermal | |
10. | the point where the parallel light rays converge. | J. | principal axis | |
11. | particle representing a quantum of light. | K. | Light energy | |
12. | generated by the movement of tiny particles. | L. | Photon | |
13. | transfer among particles in a substance. | M. | Protons | |
14. | negatively charged particle. | N. | Lens | |
15. | positively charged particle. | O. | object distance |
F | 1. | transfer energy from one place to another. | A. | Image distance |
D | 2. | sening out the light. | B. | Energy |
A | 3. | the distance of the image. | C. | Heat |
B | 4. | ability to do work. | D. | Radiant |
K | 5. | energy that people can see. | E. | Focus |
O | 6. | the distance of the object. | F. | Wave |
H | 7. | a device that produces an intense beam of coherent monocromatic light. | G. | Electrons |
N | 8. | a shaped transparent materials that refracts light to create an image. | H. | Laser |
J | 9. | a line drawn thorugh the vertex, focus, and center of curvature of the mirror. | I. | Thermal |
E | 10. | the point where the parallel light rays converge. | J. | principal axis |
L | 11. | particle representing a quantum of light. | K. | Light energy |
I | 12. | generated by the movement of tiny particles. | L. | Photon |
C | 13. | transfer among particles in a substance. | M. | Protons |
G | 14. | negatively charged particle. | N. | Lens |
M | 15. | positively charged particle. | O. | object distance |