1. Intro screen

2. Host screen

3. $400 $600 $800 $200 $1000 Larger Scientists Units e- config 101
Is it possible?
Potpourri
$200
$400
$600
$800
$1000
Jeopardy round

4. $400 $800 $1200 $1600 $2000 Smaller So many rules Trends e- config 201
Quantum #
More #s
$400
$800
$1200
$1600
$2000
Double Jeopardy Round

5. Final Jeopardy
Using the Equations
Final Jeopardy betting screen

6. Final Jeopardy
3.77 * J
A photon of green light has a wavelength of 525nm. Calculate the energy of the photon (in J).
Final Jeopardy

7. $200 Si
Larger
Atomic radius of
Si or Cl
Single Jeopardy – Category 1

8. red light or green light
$400
red
Larger
λ of
red light or green light
Single Jeopardy – Category 1

9. red light or green light
$600
green
Larger
ν of
red light or green light
Single Jeopardy – Category 1

10. Larger λ of radio waves or γ rays $800 radio
Single Jeopardy – Category 1

11. Larger atomic radius of O or ionic radius of O2- $1000
Single Jeopardy – Category 1

12. $200
Mendeleev
Single Jeopardy – Category 2

13. $400
Bohr
Single Jeopardy – Category 2

14. $600
Einstein
Single Jeopardy – Category 2

15. $800
Schrödinger
Single Jeopardy – Category 2

16. $1000
Heisenberg
Single Jeopardy – Category 2

17. $200
m or nm λ
Single Jeopardy – Category 3

18. $400
Hz or 1/s or s-1 ν
Single Jeopardy – Category 3

19. $600 J E
Single Jeopardy – Category 3

20. $800
m/s c
Single Jeopardy – Category 3

21. $1000
J*s h
Single Jeopardy – Category 3

22. $200 Li
1s22s1
Single Jeopardy – Category 4

23. $400
1s22s22p2 C
Single Jeopardy – Category 4

24. $600 Al
[Ne] 3s23p1
Single Jeopardy – Category 4

25. $800 Br
[Ar] 4s23d104p5
Single Jeopardy – Category 4

26. $1000 Sg
[Rn] 7s25f146d4
Single Jeopardy – Category 4

27. $200
Yes 4 3 -2 +½
Single Jeopardy – Category 5

28. No (ms can only be +½ or -½)
$400
No (ms can only be +½ or -½) 4 3 -2 1
Single Jeopardy – Category 5

29. $600
Yes 2 +½
Single Jeopardy – Category 5

30. $800
Yes 3 2 -1 -½
Single Jeopardy – Category 5

31. No (l values range from 0 to n-1)
$1000
No (l values range from 0 to n-1) 2 1 +½
Single Jeopardy – Category 5

32. $200
anion
The name for
a negative ion
Single Jeopardy – Category 6

33. S has this # of valence e-
$400 6
S has this # of valence e-
Single Jeopardy – Category 6

34. Ca ions have this charge
$600 2+
Ca ions have this charge
Single Jeopardy – Category 6

35. Light can exhibit a duality of these two properties
$800
Wave-like and particle-like (matter)
Light can exhibit a duality of these two properties
Single Jeopardy – Category 6

36. Planck identified that energy comes in packets called what?
$1000
Quanta
Planck identified that energy comes in packets called what?
Single Jeopardy – Category 6

37. $400 Ca
Smaller
electronegativity
O or Ca
Double Jeopardy – Category 1

38. possible # of orientations p or f shaped orbital
$800
p (3 orientations vs.
f with 7 possible orientations)
Smaller
possible # of orientations
p or f shaped orbital
Double Jeopardy – Category 1

39. Smaller ionization energy Na or K $1200
K (require less E to remove outer e- b/c more n, more shielding, further from nucleus)
Smaller
ionization energy
Na or K
Double Jeopardy – Category 1

40. energy required to excite an e-
$1600
n = 5 to n = 6
Smaller
energy required to excite an e-
from n = 2 to n = 3 or
from n = 5 to n = 6
Double Jeopardy – Category 1

41. $2000
O2-
Smaller
ionic radius
N3- or O2-
Double Jeopardy – Category 1

42. Pauli Exclusion Principle
$400
Pauli Exclusion Principle
This tells us no 2 e- in the same atom have the same E (or the same set of quantum numbers)
Double Jeopardy – Category 2

43. This tells us that e- fill orbitals in increasing order of energy
$800
Aufbau Principle
This tells us that e- fill orbitals in increasing order of energy
Double Jeopardy – Category 2

44. $1200
Hund’s Rule
This tells us the lowest energy is attained when # of e- with the same spin is maximized
Double Jeopardy – Category 2

45. $1600 Cr
This element is an exception to the rule as it attains greater stability with a ½ filled d subshell and ½ filled s subshell than with its expected 4s23d4 configuration
Double Jeopardy – Category 2

46. Emission spectra / line spectra
$2000
Emission spectra / line spectra
Rule: We can use this type of spectra to identify an element because no two will be the same
Double Jeopardy – Category 2

47. More protons, greater nuclear charge
$400
More protons, greater nuclear charge
This explains why atomic size decreases as we move from left to right across a period
Double Jeopardy – Category 3

48. This explains why ionic radius increases as we move down a group
$800
More n, greater shielding effect, larger n further away from nucleus
This explains why ionic radius increases as we move down a group
Double Jeopardy – Category 3

49. This trend tells us an element’s ability to attract e-
$1200
Electronegativity
This trend tells us an element’s ability to attract e-
Double Jeopardy – Category 3

50. Ionization Energy/ Potential
$1600
Ionization Energy/ Potential
This trend tells us the amount of energy required to remove an e- from an atom
Double Jeopardy – Category 3

51. $2000
Bottom Left
This corner of the periodic table includes elements that exhibit the greatest metallic characteristics
Double Jeopardy – Category 3

52. The general e- config. for a noble gas
$400
ns2np6
The general e- config. for a noble gas
Double Jeopardy – Category 4

53. The general e- config. for an element in Group 4A
$800
ns2np2
The general e- config. for an element in Group 4A
Double Jeopardy – Category 4

54. The noble gas configuration of F- ion
$1200
[Ne]
The noble gas configuration of F- ion
Double Jeopardy – Category 4

55. An element with the general configuration ns2 is part of which group
$1600
Alkali earth metals
An element with the general configuration ns2 is part of which group
(specific name please)
Double Jeopardy – Category 4

56. $2000
Actinoids
An element with the configuration [Rn]7s25f12 is found in this series of elements
Double Jeopardy – Category 4

57. $400 l
Tells us the shape
of an orbital
Double Jeopardy – Category 5

58. Describes the energy level or size of an orbital
$800 n
Describes the energy level or size of an orbital
Double Jeopardy – Category 5

59. Tells us the spin of an e-
$1200 ms
Tells us the spin of an e-
Double Jeopardy – Category 5

60. Tells us orientation in space of a given orbital
$1600 ml
Tells us orientation in space of a given orbital
Double Jeopardy – Category 5

61. These are the possible values for ml when l = 3
$2000
-3, -2, -1, 0, 1, 2, 3
These are the possible values for ml when l = 3
Double Jeopardy – Category 5

62. Maximum # of e- per orbital
$400 2
Maximum # of e- per orbital
Double Jeopardy – Category 6

63. 8 (2 in the s orbital + 6 in the p orbitals)
$800
8 (2 in the s orbital + 6 in the p orbitals)
Maximum # of e- in n = 2
Double Jeopardy – Category 6

64. # of d orbital orientations
$1200 5
# of d orbital orientations
Double Jeopardy – Category 6

65. Possible # of subshells in
$1600
4 (s, p, d, and f)
Possible # of subshells in
n = 4
Double Jeopardy – Category 6

66. # of e- in the s orbitals of a Ca atom
$2000
8 (2 in 1s + 2 in 2s + 2 in 3s + 2 in 4s)
# of e- in the s orbitals of a Ca atom
Double Jeopardy – Category 6

67. Daily Double
Yes 2 +½
Single Jeopardy Daily Double

68. Energy required to excite an e-
Daily Double
n = 5 to n = 6
Energy required to excite an e-
from n = 2 to n = 3 or
from n = 5 to n = 6
Double Jeopardy First Daily Double

69. Daily Double
More n, greater shielding effect, larger n further away from nucleus
This explains why ionic radius increases as we move down a group
Double Jeopardy Second Daily Double

70. The Jeopardy champion!
Goodbye screen