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Daily Quiz:

Daily Quiz:. Daily Quiz:. An atom of beryllium has how many protons? 4 5 9 13 . Daily Quiz:. 2. An atom of bromine has how many neutrons? 35 45 80 115 . Daily Quiz:. 3. An isotope of uranium has 92 electrons and 144 neutrons. What is the mass number of this isotope? 92 144 236

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Daily Quiz:

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  1. Daily Quiz:

  2. Daily Quiz: An atom of beryllium has how many protons? 4 5 9 13

  3. Daily Quiz: 2. An atom of bromine has how many neutrons? 35 45 80 115

  4. Daily Quiz: 3. An isotope of uranium has 92 electrons and 144 neutrons. What is the mass number of this isotope? 92 144 236 238.029

  5. Element X has two naturally occurring isotopes, 14X and 15X. 14X, abundance = 99.63% 15X, abundance = 0.37% Element X is: Boron Carbon Nitrogen Oxygen

  6. Daily Quiz: An atom of beryllium has how many protons? 4 5 9 13

  7. Daily Quiz: An atom of beryllium has how many protons? 4 5 9 13

  8. Daily Quiz: 2. An atom of bromine has how many neutrons? 35 45 80 115

  9. Daily Quiz: 2. An atom of bromine has how many neutrons? 35 45 80 115

  10. Daily Quiz: 3. An isotope of uranium has 92 electrons and 144 neutrons. What is the mass number of this isotope? 92 144 236 238.029

  11. Daily Quiz: 3. An isotope of uranium has 92 electrons and 144 neutrons. What is the mass number of this isotope? 92 144 236 238.029

  12. Element X has two naturally occurring isotopes, 14X and 15X. 14X, abundance = 99.63% 15X, abundance = 0.37% Element X is: Boron Carbon Nitrogen Oxygen

  13. Element X has two naturally occurring isotopes, 14X and 15X. 14X, abundance = 99.63% 15X, abundance = 0.37% Element X is: Boron Carbon Nitrogen Oxygen

  14. Modeling Isotopes

  15. Modeling Isotopes

  16. Modeling Isotopes Some pennies are made of copper.

  17. Modeling Isotopes Some are made of zinc.

  18. Modeling Isotopes There was also one year when they were made from steel. These are rare. We probably won’t see any of these today.

  19. Modeling Isotopes The change from copper to zinc happened in 1982.

  20. Modeling Isotopes Pre- and post-1982 pennies can be used to model an element with two naturally occurring isotopes.

  21. Modeling Isotopes There are three parts to this lab.

  22. Modeling Isotopes There are three parts to this lab. Find the average mass of a copper penny and of a zinc penny.

  23. Modeling Isotopes There are three parts to this lab. 2. Use mass × abundance to find an “atomic mass” for your sample of pennies.

  24. Modeling Isotopes There are three parts to this lab. Then trade samples with another group!

  25. Modeling Isotopes There are three parts to this lab. 3. Use “atomic mass” to predict the abundance of zinc and copper pennies in your new sample.

  26. Modeling Isotopes There are three parts to this lab. At the end, compare your predictions with the other group’s measurements.

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