Test Review

1. Test Review 5.1 Electromagnetic Radiation 5.2 Atomic Spectra and Energy Levels

2. ANSWER KEY

3. 1. Which of the following is the correct symbol for wavelength of electromagnetic radiation? • c • γ • ν • λ • h

4. 2. Which of the following are the correct units forfrequencyof electromagnetic radiation? • joules • hertz • nanometers • wavelength • electron volt

5. 3. Which principal energy level change by the electron of a hydrogen atom will cause the greatest amount of energy to be absorbed? • n = 5 to n = 2 • n = 2 to n = 5 • n = 4 to n = 2 • n = 2 to n = 4 • n = 3 to n = 4

6. 4. Which diagram shows a wave with the highest frequency? • A • B • C • D

7. 5. As an atom in the excited state returns to the ground state, the energy of the atom • remains the same • increases • decreases

8. 6. What causes the emission of radiant energy that produces characteristic spectral lines? • neutron absorption by the nucleus • movement of electrons to higher energy levels C. return of electrons to lower energy levels • gamma ray emission from the nucleus • electromagnetic radiation in the visible range being released by the nucleus

9. 7. Which form of electromagnetic radiation travels the fastest through the vacuum of space? • visible light • gamma rays • radio waves of any type • microwaves • all travel at the same speed

10. 8. Which form of electromagnetic radiation is also known as thermal radiation or “heat”? • ultraviolet • infrared • visible light • microwaves • x-rays

11. 9. Which form of electromagnetic radiation has the highest frequency? • cosmic rays • long-wave radio • visible light • gamma rays • all have the same frequency

12. 10. Which form of visible light has the most energy? • red light • yellow light • green light • violet light • all have the same energy

13. 11. Which form of electromagnetic radiation causes the majority of skin cancers? • visible light • infrared light • ultraviolet light • x-rays • microwaves

14. 12. Which form of electromagnetic radiation is caused by the energy emissions from the nuclei of radioactive atoms? • radio waves • visible light • ultraviolet light • gamma rays • microwaves

15. 13. __ is/are mostly stopped by the Earth’s ozone layer while __ is/are mostly deflected by the Earth’s magnetic field. • infrared, ultraviolet • ultraviolet, cosmic rays • microwaves, VHF waves • gamma rays, infrared • microwaves, ultraviolet

16. 14. __ is/are stopped when they encounter nitrogen molecules in the Earth’s atmosphere • ultraviolet • cosmic rays • microwaves • gamma rays • visible light

17. 15. Which type of electromagnetic radiation is actually made up of charged particles rather than just waves of energy? • ultraviolet • cosmic rays • microwaves • gamma rays • infrared

18. 16. Which type of electromagnetic radiation is ionizing radiation? • ultraviolet • X-ray • microwaves • radio • infrared

19. 17. In an atom, an electron in principal energy level ___ would have the least energy. • n = 1 • n = 2 • n = 3 • n = 4 • n = 5

20. 18. An electron occupying the lowest energy level is said to be ___. • farthest from the nucleus • neutral • in the ground state • ionized • positively charged

21. 19. Which of the following is stated correctly? • an photon carries a quantum of energy • a quantum carries a photon of energy

22. 20. Calculate the frequency of electromagnetic radiation with a wavelength of 560 nm. use the equation: c = λν Step 1:rearrange the formula to solve for ν ν = c /λ Step 2:convert nanometers to meters P T G M k h d – 0 – d c m μ n Å p f a 560 nm = 5.60 x 10−7 m Step 3:plug the known amounts into the formula and solve 3.00 x 108 m/ s v = 5.60 x 10−7 m → 5.36 x 1014 Hz

23. 21. Calculate the energy of a photon a wave- length of 560 nm. use the equation: Ephoton= hv Step 1:we know from question # 20 that frequency (v) at 560 nm = 5.36 x 1014 Hz Step 2:recall that h = Plank’s constant 6.63 x 10−34 J•s Step 3:plug the known amounts into the formula and solve Ephoton = (6.63 x 10−34 J•s)(5.36 x 1014/s) → 3.56 x 10−19 J

24. 22. From what portion of the electromagnetic spectrum was the electromagnetic radiation of Questions # 20 and # 21 ? visible light

25. 23. What color was the light from Questions # 20 and # 21 ? green

26. 24. Calculate the energy of a photon a wave- length of 310 nm. use the equation: Ephoton= hc/λ Step 1:convert 310 nm to m P T G M k h d – 0 – d c m μ n Å p f a 310 nm = 3.10 x 10−7 m Step 2: plug the known amounts into the formula and solve Ephoton = [(3.00 x 108m/s) (6.63 x 10−34 J•s)] / 3.10 x 10−7 m → 6.42 x 10−19 J

27. 25. Calculate the wavelength, in nm, of electro- magnetic radiation with a frequency 2.50 x 1016 Hz. use the equation: c = λν Step 1:rearrange the formula to solve for λ λ= c /ν Step 2: plug the known amounts into the formula and solve for λ in meters 3.00 x 108 m/ s λ = 2.50 x 1016 s → 1.20 x 10−8 m Step 3:convert meters to nanometers P T G M k h d – 0 – d c m μ n Å p f a 1.20 x 10−8 m = 12 nm

28. 26. The characteristic bright-line spectrum of an atom is produced by its • protons emitting quanta • electrons emitting quanta • protons absorbing quanta • electrons absorbing quanta • forming an ionic bond

29. 27. Which of the following is the correct relationship between wavelength and energy? • as λ↑, E↓ (inverse) • as λ↓,E↓ (direct)

30. 28. A photon of which of the following forms of electromagnetic radiation would have the largest quantum of energy? • red visible light • infrared light • ultraviolet light • microwaves • violet visible light

31. 29. Which of the following forms of electro- magnetic radiation would have the smallest frequency? • red visible light • infrared light • ultraviolet light • microwaves • violet visible light

32. 30. The following show some of the possible transitions of the electron in the hydrogen atom. Which series of transitions would result in a visible atomic spectrum? • Lyman • Balmer • Paschen • Brackett • Pfund FYI: Lyman = UV spectrum Pachen = IR spectrum Backett = IR spectrum Pfund = IR spectrum

33. 31. Which transition would represent the green line of hydrogen’s visible emission spectrum? • n = 6 to n = 2 • n = 5 to n = 1 • n = 4 to n = 2 • n = 7 to n = 5 • n = 4 to n = 1