2. Catalyst 1. Write down Dalton’s postulate that was proven wrong by the existence of isotopes. 2. How does the existence of isotopes disprove this component of Dalton’s atomic theory? End

3. Marie Curie! Marie Klodowska Curie discovered the mysterious element radium. It opened the door to deep changes in the way scientists think about matter and energy. Radioactivity had nothing to do with whether the material was solid or powdered, dry or wet, pure or combined with other chemical elements. If you had a certain amount of uranium—a certain number of uranium atoms—then you got a certain intensity of radiation. Nothing else made a difference.elementsatoms

4. Women in STEM When the Nobel Prize for Physics was awarded to Pierre and Marie Curie in 1903, the great honor quickly changed their lives. Pierre was finally appointed to a professorship at the Sorbonne, and the university belatedly found funds for a laboratory for him. It also hired Marie—the first woman to win a Nobel Prize—as “laboratory chief.”

5. Module 2.3 – Marie Curied Boar Meat

6. Next Model in the Development of Atomic Theory: Curie

7. ISOTOPES AND RADIOACTIVE DECAY

8. Today’s Learning Targets LT 2.3 – I can identify the number of protons as the atomic number and calculate average atomic mass on the periodic table using relative isotope abundance data.

9. What are isotopes?

10. I. Isotopes Isotope – Atoms of the same element have different numbers of neutrons and thus have different atomic masses.

11. How are isotopes and relative abundances related?

12. II. Calculating Average Atomic Mass In nature, we have various amounts of each isotope of an element Therefore, we use the abundance to get a relative mass

13. Class Example Naturally occurring chlorine is 75.78% 35 Cl and 24.22% 37 Cl. Calculate the average atomic mass of chlorine.

14. Table Talk Three isotopes of silicon occur in nature, 92.23% is 28 Si, 4.68% is 29 Si, and 3.09% is 30 Si. Calculate the average atomic mass of silicon.

15. Stop and Jot Only two isotopes of copper occur naturally 63 Cu accounts for 69.17% and 30.83% is 65 Cu. Calculate the average atomic mass of copper.

16. Summarize! Use the following terms in your summary: Isotope Relative Abundance Sum

17. Learning Target Log Assessment Go to letsgeddit and rate your current level of understanding for LT 2.2. Rate yourself 1 – 4.

18. How does this connect to radioactive boars?

19. Radioactive Boar Meat! Make some radioactive boar burgers! Good idea? Or nah?

20. Online Simulator Please open the two simulators on the computer and complete the simulator handout with a partner.

21. What is radioactive decay?

22. I. Radioactive Decay Atoms can be unstable and breakdown Radioactive Decay – The spontaneous breakdown of the nucleus into a smaller nucleus, accompanied by the release of particles, radiation, or both.

23. What are the three types of decay?

24. I. Alpha (α) Decay Alpha Decay – When an atom splits its nucleus into: 1.A smaller nucleus and 2.A Helium atom (2 protons, 2 neutrons). Observed often in very heavy atoms Alpha particles on travel a few cm in air Paper blocks alpha particles

26. Alpha Radiation

27. II. Beta (β) Decay Some elements are unstable because their proton to neutron ratio is too large. Beta decay converts neutrons to protons and releases an electron known as a beta particle neutron  proton + β Travel a few meters in the air Metals provide a shield against beta radiation. Electron

29. Beta Radiation

30. III. Gamma (γ) Decay Gamma rays are high energy waves that are released when nucleus goes from high energy state to low energy. Gamma radiation is the most dangerous. It can lead to DNA mutations and cancers. Gamma radiation requires thick pieces of lead/concrete in order to stop.

32. Gamma Radiation

33. Radiation Summary Type of RadiationDescriptionBlocked by? Alpha (α) Beta (β) Gamma (γ) The spitting of a nucleus into a smaller nucleus and a He atom (alpha particle Converts a neutron to a proton and an electron (beta particle) High energy waves that are released by nucleus Blocked by paper Blocked by metals Blocked by lead

34. Class Example Label the following decay as alpha, beta or gamma decay 43 19 K  43 20 Ca + electron

35. Table Talk Label the following decay as alpha, beta or gamma decay 210 84 Po  206 82 Pb + 4 2 He

36. Table Talk Complete the following reaction if it undergoes beta decay: 14 7 N  ______ + _______

37. SUMMARIZE! Use the following terms in your summary: Alpha Beta Gamma Decay Radioactive

38. Work Time Work on practice for the next 10 minutes.

39. Learning Target Log Assessment Rate your current level of understanding of LT Rate yourself 1 – 4.

40. Exit Slip 1. Naturally occurring chlorine is 75.78% 35 Cl and 24.22% 37 Cl. Calculate the average atomic mass of chlorine. 2. What is gamma decay? What will stop gamma radiation? 3. What type of decay is shown below: 231 91 Pa  227 89 Ac + 4 2 He

41. Learning Target Log Assessment Rate your current level of understanding of LT. Rate yourself 1 – 4.

43. Closing Time Practice due Monday/Tuesday Test next Tuesday/Wednesday