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5. 100 10100 200 300 400 500 Nuclear Particles Electron Arrangement Nuclear Equations Light Calculations Definitions Relationships between Variables

6. Consists of 2 protons and 2 neutrons, has an overall charge of +2. A 100

7. Alpha Particle A 100

8. Is not a particle, only an electromagnetic wave. Has no charge and can only be stopped by lead or 6 feet of concrete. A 200

9. Gamma A 200

10. 0 -1 e A 300

11. Beta A 300

12. Is the weakest form of radiation, can be stopped by paper or cloth. A 400

13. Alpha A 400

14. I made up of an electron, has a charge of -1 and can be stopped by wood or concrete. A 500

15. Beta A 500

16. [Ar] 4s 2 3d 10 4p 3 B 100

17. Arsenic B 100

18. The electron configuration for lithium. B 200

19. 1s 2 2s 1 B 200

20. 1s 2 2s 2 2p 6 3s 2 3p 6 4s 2 3d 10 4p 6 5s 2 4d 10 5p 6 6s 2 4f 14 5d 10 6p 6 7s 2 5f 4 B 300

21. Uranium B 300

22. The 6 th element in the 4 th sublevel of the d block B 400

23. Ruthenium B 400

24. The shorthand (noble gas) configuration for silver. B 500

25. [Kr] 5s 2 4d 9 B 500

26. Balance the following nuclear equation: 238 92 U  238 93 Np + _____ C 100

27. 0 -1 e C 100

28. Balance the following nuclear equation: 27 13 Al  4 2 He + _____ C 200

29. 23 15 P C 200

30. 152 66 Dy* → 152 66 Dy* + γ This is an example of what type of radiation? C 300

31. Gamma

32. DAILY DOUBLE C 400 DAILY DOUBLE Place A Wager

33. What type of particle would balance this equation? 241 95 Am → 237 93 Np + ____ C 400

34. Alpha C 400

35. Balance the following nuclear equation: 238 92 U  238 92 U + ______ C 500

36. ϒ

37. What is the energy of a quantum of light with a frequency of 4.31 X 10 14 1/s or Hz? D 100

38. 2.86 x 10 -19 J D 100

39. A certain violet light has a wavelength of 413 nm. What is the frequency of the light? D 200

40. 7.26 x 10 -14 Hz D 200

41. If you calculate the wavelength of light to be 5.56 x 10 -7 m, what would be the equivalent length in nanometers? D 300

42. 556 nm D 300

43. At what speed does a red light of wavelength 650 nm travel? D 400

44. 3.00 x 10 8 m/s D 400

45. What is the energy of light with a wavelength of 662 nm? D 500

46. 3.00 x 10 -19 J D 500

47. When the nucleus splits into two or more nuclei E 100

48. fission E 100

49. When a new element is formed through radioactive decay E 200

50. transmutation E 200

51. A piece of light light that acts like a particle E 300

52. photon E 300

53. The distance from the nucleus of the atom to the electrons, can be determined by looking at the periods E 400

54. Energy levels E 400

55. The spontaneous reaction in which an unstable nuclei (one with a ration larger than 1:1 in a small atom or 1:1.5 in a larger atom) loses energy to become stable E 500

56. Radioactive Decay E 500

57. When the wavelength increases, what happens to the frequency? F 100

58. It decreases F 100

59. If the frequency increases, what happens to the energy? F 200

60. Increases F 200

61. If you have 2 wavelengths of light, 450 nm and 650 nm. Which is traveling at a higher speed? F 300

62. Speed of light is a constant so they are traveling at the SAME speed F 300

63. Do you see the atomic spectrum of an atom when the energy is absorbed by the electron or released? F 400

64. released F 400

65. Which variable determines the color of the light? F 500

66. Wavelength F 500