Chemistry 101. ANSWER KEY. 1. REVIEW QUESTIONS. Chapter 4. 1. Identify ...
7. How many mL of 1.50 M Na 3 PO 4 solution contains 5.00 g of solute? 5.00 g.
4 Student's own answers. This page has been downloaded from ... INSPIRATION
1. Worksheet 1. Answer Key. I am. English. You are. Mexican. He is a teacher.
CAE Exam Practice. Key Word Transformations 1. Key. 1. do not appeal to me. 2.
(that) he could protect. 3. is against the law to. 4. is generally considered (to be).
Answer Key. Lesson 3.1. Practice Level B. 1. C; consistent and independent. 2. A;
consistent and dependent 3. B; inconsistent. 4. 5. (4, 0). (23, 1). 6. 7. (2, 21).
Science HSPE Practice Instructional Materials #1. Correct Answers for Multiple
Choice Questions. Item Number Correct Answer. 1. D. 2. B. 3. D. 4. B. 5. B. 6. A. 7.
Pearson Longman 2007. Answer Key. TEST 5A. TEST 5B. 1. D. 1. C. 2. C. 2. D. 3.
D. 3. B. 4. B. 4. C. 5. A. 5. B. 6. C. 6. A. 7. C. 7. D. 8. D. 8. D. 9. A. 9. C. 10. D.
Exponential Functions Activity . ... The Form of an Exponential Function, P = ab ....
Solving Exponential and Logarithmic Equations .....................................................
Pearson Longman 2007. Answer Key. TEST 4A. TEST 4B. 1. A. 1. C. 2. D. 2. D. 3.
C. 3. C. 4. D. 4. B. 5. B. 5. A. 6. C. 6. D. 7. D. 7. C. 8. C. 8. D. 9. A. 9. C. 10 A.
Forensic Science Semester Exam Review Answer Key. 20 1. Wear and brand are
two characteristics of shoe prints. 13 2. Minerals are where soil gets its color.
kuta software infinite algebra 1 answer key ; algebra problem solver ; homework helper for 9th grade algebra ; multi step equations with fractions worksheets ;.
[ANSWER KEY]. Chemistry I: Worksheet on All Kinds of Mole Problems. SHOW
ALL WORK!!! 1) What is the mass of 134 L of O2 gas at STP? 134 O2 x 1 mol O2.
UNIT TEST ANSWER KEY. 1. a. 10. d. 19. b. 28. e. 2. d. 11. e. 20. d. 29. e. 3. e. 12
. c. 21. c. 30. e. 4. c. 13. e. 22. a. 31. e. 5. a. 14. c. 23. d. 32. c. 6. a. 15. b. 24. e.
Chemistry 101. ANSWER KEY. 1. REVIEW QUESTIONS. Chapter 7. 1. Calculate
the wavelength and energy of a photon of radiation with frequency of 2.85x10.
Chemistry 101
ANSWER KEY REVIEW QUESTIONS Chapter 7
1. Calculate the wavelength and energy of a photon of radiation with frequency of 2.85x1012 s–1. c 3.00x108 m/ s = = 1.05x10-4m -1 12 υ 2.85x10 s -1 E = hυ = (6.626x10-34 J s )(2.85x1012 s ) = 1.89x10-21 J λ=
2. What is the wavelength of radiation with energy of 8.23x10–19 J? In what region of the electromagnetic spectrum would this radiation be found? E = h c λ= = υ υ=
8.23x10-19 J = 1.24x1015 s -1 -34 6.626x10 J s 3.00x108 m/s = 2.42x10-7 m = 242 nm (UV region) 15 -1 1.24x10 s
3. For each of the following transitions in the hydrogen atom, calculate the energy, wavelength and frequency of the associated radiation and determine whether radiation is absorbed or emitted during the transition. a) from n=5 to n=1 1 1 1 1 1 = 1.097x107 ( 2 - 2 ) m -1 = 1.097x107 ( - ) λ n1 n 2 1 25 λ = 9.50x10-8 m c 3.00x108 m /s υ= = = 3.16x1015 s-1 -8 λ 9.50x10 m -1 E = hυ = (6.626x10-34 J s )(3.16x1015 s ) = 2.09x10-18 J Energy is emitted by this transition
b) from n=2 to n=6
1 1 1 1 1 = 1.097x107 ( 2 - 2 ) m -1 = 1.097x107 ( - ) λ n1 n 2 4 36 λ = 4.10x10-7 m c 3.00x108 m /s υ= = = 7.31x1014 s-1 λ 4.10x10-7 m -1 E = hυ = (6.626x10-34 J s )(7.31x1014 s ) = 4.84x10-19 J Energy is absorbed by this transition
1
4. Use the diagrams below to determine the wavelength and frequency of each wave shown. (Assume the same time and distance scale for both waves)
For wave (a) = 0.75 m υ=
x (m)
1 wave = 0.125 s-1 8.0 s
For wave (b) = 0.60 m υ=
x (m)
1 wave = 0.166 s-1 6.0 s
5. The energy needed to remove an electron completely from an atom is called its ionization energy. In terms of Bohr’s model, ionization can be considered a process in which the electron moves to an “orbit” of infinite radius. The ionization of a ground-state hydrogen atom can therefore be calculated by assuming that the electron undergoes a transition from ni=1 state to nf= state. Calculate this energy in kJ/mol. 1 1 1 1 1 = 1.097x107 ( 2 - 2 ) m -1 = 1.097x107 ( - ) λ n1 n 2 1
1
=0
λ = 9.12x10-8 m c 3.00x108 m /s υ= = = 3.29x1015 s-1 -8 λ 9.12x10 m -1 E = hυ = (6.626x10-34 J s )(3.29x1015 s ) = 2.18x10-18 J E=
2.18x10-18 J 6.02x1023 atoms 1 kJ x x 3 = 1.31x103 kJ/mol 1 atom 1 mol 10 J
6. The energy required to ionize sodium atom is 496 kJ/mol. What minimum frequency of light is required to ionize sodium? 496 kJ 103 J 1 mol E= x x = 8.239x10-19 J/atom 23 1 mol 1 kJ 6.02x10 atoms E 8.239x10-19 J υ= = = 1.24x1015 s -1 h 6.626x10-34 Js
2
7. The binding energy of electrons in a metal is 193 kJ/mol. Determine the threshold frequency for this metal. 193 kJ 103 J 1 mol x x = 3.206x10-19 J/atom 1 mol 1 kJ 6.02x1023 atoms E 3.206x10-19 J υ= = = 4.84x1014 s-1 -34 h 6.626x10 Js
E=
8. Determine the velocity of an electron emitted by a metal whose threshold frequency is 2.25x1014 s–1 when it is exposed to visible light of 5.00x10–7 m. (mass of electron= 9.11x10–28 g) Threshold Energy (Ethr ) = hυ= (6.626x10-34 Js)(2.25x1014 s) = 1.49x10-19 J hc (6.626x10-34 Js)(3.00x108 m/s) = = 3.98x10-19 J -7 λ 5.00x10 m Excess energy available to accelerate the electron = E vis - Ethr = 2.49x10-19 J Energy of visible light (E vis ) =
v=
2E = m
2(2.49x10-19 J ) = 7.39x105 m/s -31 9.11x10 kg
9. Determine if each set of quantum numbers below is permissible or not. If yes, write the orbital designation for each. a)
n= 2
l=1
ml= +1
Yes
b)
n= 1
l=0
ml= –1
No (ml cannot be greater than l)
c)
n= 4
l= 2
ml= +1
Yes
d)
n= 3
l= 3
ml= 0
No (l values cannot exceed n–1)
3
2p
4d
10. Write the quantum numbers associated with each of the following orbitals: a)
4p
n= 4
l= 1
ml= +1, 0 or –1
b)
3d
n= 3
l= 2
ml= +2, +1, 0, –1 or –2
c)
7s
n= 7
l= 0
ml= 0
d)
5f
n= 5
l= 3
ml= +3, +2, +1, 0, –1, –2 or –3
11. The quantum numbers listed below are for four different orbitals. List them in order of increasing energy. Indicate whether any two have the same energy. a)
n= 4
l= 0
ml= 0
4s
b)
n= 3
l= 2
ml= +1
3d
c)
n= 3
l= 1
ml= –1
3p
d)
n= 3
l= 2
ml= 0
3d
c < a < b = d 12. When a compound containing cesium is heated in a Bunsen burner flame, photons with energy of 4.30 x10–19 J are emitted. What color is the cesium flame? E = h c λ= = υ υ=
4.30x10-19 J = 6.49x1014 s-1 -34 6.626x10 J s 3.00x108 m/s = 4.62x10-7 m = 462 nm (Blue-green color) 14 -1 6.49x10 s
4
13. The He+ ion contains one electron and is therefore a hydrogen-like ion. Calculate the wavelength of the first four electron transitions (62, 52, 42 and 32) for this ion and compare with the same transitions in the H atom. Comment on the differences. (R for He+=8.72x10–18 J) 1 R He 1 1 1 1 = ( 2 - 2 ) = 4.39x107 ( 2 - 2 ) m -1 λ hc n1 n 2 n1 n 2 R He 8.72x10-18 J = = 4.39x107m -1 -34 8 hc (6.626x10 Js )(3.00x10 m /s) For transition 6
2
λ = 1.03x10-7 m = 103 nm (H= 411 nm)
For transition 5
2
λ = 1.08x10-7 m = 108 nm (H= 434 nm)
For transition 4
2
λ = 1.21x10-7 m = 121 nm (H= 487 nm)
For transition 3
2
λ = 1.64x10-7 m = 164 nm (H= 657 nm)
All H transitions are in the visible region, while He + transitions are in the UV region