Physics 102: Lecture 28

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1 Physics 102: Lecture 28 Nuclear Binding, Radioactivity E=mc 2 Physics 102: Lecture 27, Slide 1

2 End-of-semester info Final exam info: A1: Thursday, May 15, 1:30-4:30pm A2: Friday, May 9, 1:30-4:30pm Approximately 50 questions Cumulative (all material from semester covered evenly) Problem list from text available on home page. CHECK GRADEBOOK! Physics 102: Lecture 27, Slide 2

3 Matter Leptons Quarks Force Carriers Standard Model a.k.a. The Most Successful Theory Ever! 2 3 Tell them about the anti-matter! u d d A) Proton B) Neutron u d u d e - n CERN Summer Program Tim Stelzer

4 Back to our regularly scheduled lecture! Physics 102: Lecture 26, Slide 4

5 Nuclear Physics A Z 6 3 Li 7 Li 3 Z = proton number ( atomic number ) Gives chemical properties (and name) N = neutron number (different isotopes ) A = nucleon number (atomic mass number) Gives you mass density of element Physics 102: Lecture 26, Slide 5 A=N+Z

6 Checkpoint 1.1 A material is known to be an isotope of lead. Based on this information which of the following can you specify? 1) The atomic mass number 2) The neutron number 3) The number of protons Chemical properties (and name) determined by number of protons (Z) Lead Z=82 Physics 102: Lecture 27, Slide 6

7 Binding Energy Einstein s famous equation E = m c 2 proton: mc 2 =(1.67x10-27 kg)(3x10 8 m/s) 2 =1.50x10-10 J Proton: mc 2 = 938.3MeV Neutron: mc 2 = 939.5MeV Adding these = MeV Physics 102: Lecture 27, Slide 7 Deuteron: mc 2 =1875.6MeV Difference = binding energy = 2.2MeV M Deuteron c 2 = M Proton c 2 + M Neutron c 2 Binding Energy M Deuteron = M Proton + M Neutron Binding Energy /c 2

8 ACT: Binding Energy Which system weighs more? 1) Two balls attached by a relaxed spring. 2) Two balls attached by a stretched spring. 3) They have the same weight. M 1 = M balls + M spring M 2 = M balls + M spring + E spring /c 2 M 2 M 1 = E spring /c 2 ~ Kg Physics 102: Lecture 27, Slide 8

9 Checkpoint 1.2 Where does the energy released in the nuclear reactions of the sun come from? (1) covalent bonds between atoms (2) binding energy of electrons to the nucleus (3) binding energy of nucleons Physics 102: Lecture 27, Slide 9

10 BINDING ENERGY in MeV/nucleon Binding Energy Plot Iron (Fe) has most binding energy/nucleon! (Checkpoint 2.1) 10 Fission U Fission = Breaking large atoms into small Fusion = Combining small atoms into large Physics 102: Lecture 27, Slide 10

11 13% 23% 28% Which of the following is most correct for the total binding energy of an Iron nucleus (Z=26)? 9 MeV 234 MeV 270 MeV 36% 504 Mev For Fe, B.E./nucleon 9MeV 56 26Fe has 56 nucleons Total B.E 56x9=504 MeV Checkpoint 2.2 Physics 102: Lecture 27, Slide 11

12 3 Types of Radioactivity Magnetic field into screen Radioactive sources a particles: 4 2He nuclei b particles: electrons detector Easily Stopped Stopped by metal Physics 102: Lecture 27, Slide 12 g : photons (more energetic than x-rays) penetrate!

13 Decay Rules 1) Nucleon Number (A) is conserved. 2) Charge is conserved. 3) Energy and momentum are conserved. a: example U Th a recall 4 2He a 1) 238 = Nucleon number conserved 2) 92 = Charge conserved Physics 102: Lecture 27, Slide 13

14 Decay Rules 1) Nucleon Number (A) is conserved. 2) Charge is conserved. 3) Energy and momentum are conserved. b: example n 1p 1 e n 0 0 anti-neutrino needed to conserve momentum. Physics 102: Lecture 27, Slide 14

15 Decay Rules 1) Nucleon Number (A) is conserved. 2) Charge is conserved. 3) Energy and momentum are conserved. P P A * A g: example g Z nuclear isomer : excited state Z K 40 Ar 1.46 MeV Physics 102: Lecture 27, Slide 15

16 ACT: Checkpoint 3 A nucleus undergoes a decay. Which of the following is FALSE? A. Nucleon number decreases by 4 B. Neutron number decreases by 2 C. Charge on nucleus increases by 2 25% 32% 43% a decay is the emission of 2 4 He a A decreases by 4 Ex. Z decreases by 2 (charge decreases!) Physics 102: Lecture 27, Slide U 90Th 4 He 2

17 Checkpoint Th The nucleus undergoes decay. b Which of the following is true? ν A. The number of protons in the daughter nucleus increases by one. B. The number of neutrons in the daughter nucleus increases by one. b decay is accompanied by the emission of an electron: creation of a charge -e. 234??? 90Th?? X 0 1e 0 0n Th 91Pa 0 1e 0 0n Physics 102: Lecture 27, Slide 17 In fact, n p e n e inside the nucleus, and the electron and neutrino escape.

18 ACT: Decay Which of the following decays is NOT allowed? A B C D U Th a Po Pb C N g K Ca e n He 238 = = = = = = = Physics 102: Lecture 27, Slide 18

19 Radioactive decay rates N t N Decays per second or activity decay constant No. of nuclei present Checkpoint 5 If the number of radioactive nuclei present is cut in half, how does the activity change? A) It remains the same B) It is cut in half C) It doubles 22% 55% 23% 1 becquerel (Bq) =1 decay/s 1 curie Ci = Bq Physics 102: Lecture 27, Slide 19

20 Decay Function N(t ) N 0 e t t T N 0 2 1/2 # of nuclei present at time t # we started with at t=0 T 1/ time Physics 102: Lecture 27, Slide 20 Half of the remaining atoms are lost after a half life that lasts T 1/2 ; the activity also is reduced by one half every T 1/2

21 Physics 102: Lecture 27, Slide 21 You are radioactive! One in 8.3x10 11 carbon atoms is 14 C which b decays with a ½ life of 5730 years. Determine # of decays/s per gram of Carbon. N N t N mole g T 1/ s decays/s atoms g

22 Carbon Dating We just determined that living organisms should have a decay rate of about 0.23 events/s per gram of carbon. The bones of a man from the last ice age are found to have a decay rate of 0.23/2 events/s per gram. We can estimate he died about 6000 years ago. Physics 102: Lecture 27, Slide 22

23 ACT/Checkpoint 6 The half-life for beta-decay of 14 C is ~6,000 years. You test a fossil and find that only 25% of its 14 C is un-decayed. How old is the fossil? A. 3,000 years B. 6,000 years C. 12,000 years At 0 years: 100% remains At 6,000 years: 50% remains At 12,000 years: 25% remains Physics 102: Lecture 27, Slide 23

24 Summary Nuclear Reactions Nucleon number conserved Charge conserved Energy/Momentum conserved a particles = 4 2He nuclei b - particles = electrons g particles = high-energy photons Activity: N t N Survival: N(t ) N 0 e t T 1/ Decays Half-Life is time for ½ of atoms to decay Physics 102: Lecture 27, Slide 24

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