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Nuclear Chemistry Chapter 21.

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Presentation on theme: "Nuclear Chemistry Chapter 21."— Presentation transcript:

1 Nuclear Chemistry Chapter 21

2 Radioisotopes Nuclei of unstable isotopes are called radioisotopes.
An unstable nucleus releases energy and/or mass by emitting radiation during the process of radioactive decay

3 Radiation Three Types Alpha  Helium Nucleus Beta  Electron
Gamma  Light wave

4 Symbols Alpha Beta Gamma

5 Radiation

6 Radiation

7 Nuclear Symbols Table O

8 Nuclear Stability For smaller atoms, a ratio of 1:1 neutrons to protons helps to maintain stability C-12, N-14, O-16 For larger atoms, more neutrons than protons are required to maintain stability Pb-207, Au-198, Ta-181

9 Nuclear Stability

10 Radioactive Decay Radioisotopes will undergo decay reactions to become more stable Alpha Decay Beta Decay Positron Emission Electron Capture

11 Alpha Decay

12 Beta Decay

13 Positron Emission

14 Electron Capture 37 81 𝑅𝑏 + −1 0 𝑒 → 𝐾𝑟

15 Transmutations Any reaction where one element is transformed into a different element Two main types Natural Artificial

16 Example X

17 Example X

18 Example X

19 Fission Splitting of a larger atom into two or more smaller pieces
Nuclear Power Plants One Example:

20 Fission

21 Fusion Joining of two or more smaller pieces to make a larger piece
Sun, Stars One Example:

22 Fusion

23 Energy Production Energy is produced by a small amount of mass being converted to energy More energy is produced by fusion than any other source E=mc2

24 Mass Difference The mass of a nucleus weighs less than the mass of the individual protons and neutrons He Nucleus  u 2 protons 2( ) 2 neutrons 2( ) u

25 Mass Defect Mass difference between nucleus and individual particles
Nucleons u Nucleus u Mass Defect u

26 Nuclear Binding Energy
In order to break apart the individual particles in a nucleus, energy must be added. The added energy is converted back to mass When particles form a nucleus, energy is released

27 Nuclear Binding Energy per Nucleon

28

29 Half Life Amount of time for half the atoms in a radioactive sample to decay into a new element Measure of time, t1/2

30 Half Life Equation 𝑙𝑛 𝑁𝑡 𝑁𝑜 =−𝑘𝑡 𝑙𝑛 𝑁𝑜 𝑁𝑡 =𝑘𝑡

31 Half Life Equation 𝑙𝑛 𝑁𝑜 𝑁𝑡 =𝑘𝑡 𝑙𝑛 2 1 =𝑘 𝑡 1/2 𝑘= 𝑡 1/2

32 Example

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