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 What is the mole and how does it relate to Avagadro’s number. How many atoms are in 2 moles of NaCl. Explain with complete sentences and show any calculations.

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Presentation on theme: " What is the mole and how does it relate to Avagadro’s number. How many atoms are in 2 moles of NaCl. Explain with complete sentences and show any calculations."— Presentation transcript:

1  What is the mole and how does it relate to Avagadro’s number. How many atoms are in 2 moles of NaCl. Explain with complete sentences and show any calculations. Do Now…

2  Lecture on Nuclear Fission and Nuclear Fusion. (30 minutes) Video on modern day uses of Nuclear energy (20 minutes) Lecture on medical uses of nuclear energy (10 minutes) Video on medical uses and application of nuclear energy (10 minutes) Group Research (30 Minutes) Agenda

3 Nuclear Reactions and their use Mr. Berlin Luskin Academy

4 Objective  I will be able to identify and compare the difference between fission and fusion reactions and cite specific examples of how they are used today and connect environmental problems associated with each type of nuclear reaction.

5 4 Nuclear Reactions What You wi ll Learn  What nuclear fission is  What nuclear fusion is  How radioactive tracers can be used in medicine  How nuclear reactions can help treat cancer

6 Vocabulary  Nucleus: The center of an atom that contains the protons and neutrons.  Nuclear Fission: A process in which the nucleus of a atom splits into smaller parts.  Nuclear Fusion: A process in which the nucleus of two atoms combine making a larger single atom nucleus.  Strong Force: forces that hold the nucleus of a atom together.  Old Vocabulary you should know:  NeutronsProtons  Atomic MassAtomic number

7 Nuclear Fission  1934- Enrico Fermi bombards U nuclei with neutrons.

8 Nuclear Fission  1934- Enrico Fermi bombards U nuclei with neutrons.  1938- Otto Hahn & Fritz Strassmann split U-235 into smaller nuclei.

9 Nuclear Fission  1934- Enrico Fermi bombards U nuclei with neutrons.  1938- Otto Hahn & Fritz Strassmann split U-235 into smaller nuclei.  1939- Lise Meitner theorized that splitting occurs when the nucleus becomes so unstable that it splits.

10 Nuclear Fission  1934- Enrico Fermi bombards U nuclei with neutrons.  1938- Otto Hahn & Fritz Strassmann split U-235 into smaller nuclei.  1939- Lise Meitner theorized that splitting occurs when the nucleus becomes so unstable that it splits.  The process of splitting a nucleus into smaller nuclei- nuclear fission

11 What nuclei can split during nuclear fission?  Only large nuclei like U or plutonium can split apart during nuclear fission.

12 1) Which elements are involved in Nuclear Fission reactions? a) Uraniumb) Plutonium c) Einsteinium 2) Nuclear Fission reactions will result in a larger atomic nucleus a) Trueb) False 3) Small nucleus are a good source of Nuclear Fission. a) Trueb) False 4) Large amounts of energy are released in Nuclear Fission reactions. a) Trueb) False Learning Check…

13 1) Which elements are involved in Nuclear Fission reactions? a) Uraniumb) Plutonium 2) Nuclear Fission reactions will result in a larger atomic nucleus b) False 3) Small nucleus are a good source of Nuclear Fission. b) False 4) Large amounts of energy are released in Nuclear Fission reactions. a) True Learning Check…

14 What nuclei can split during nuclear fission?  U-236 is so unstable that it immediately splits into barium & krypton nuclei, several neutrons & a large amount of energy

15 How are mass & energy related?  Einstein proposed that mass & energy are related & can be changed from one to the other.

16 How are mass & energy related?  Einstein proposed that mass & energy are related & can be changed from one to the other.  His special theory of relativity says that energy in joules is equal to mass in kg multiplied by the speed of light squared.

17 How are mass & energy related?  Einstein proposed that mass & energy are related & can be changed from one to the other.  His special theory of relativity says that energy in joules is equal to mass in kg multiplied by the speed of light squared.  Energy (joules) = mass (kg) X speed of light (m/s) 2 or E= mc 2

18 What is a chain reaction?  Free neutrons produced by fission can hit other nuclei emitting more neutrons repeating the reaction over and over.

19 What is a chain reaction?  Free neutrons produced by fission can hit other nuclei emitting more neutrons repeating the reaction over and over.  A series of fission reactions is called a chain reaction.

20 What is a chain reaction?  Free neutrons produced by fission can hit other nuclei emitting more neutrons repeating the reaction over and over.  A series of fission reactions is called a chain reaction.  An uncontrolled chain reaction releases a huge amount of energy in a short time & requires a critical mass of starting material to produce more reactions.

21 1) Which elements are produced from Uranium 236 going through Nuclear Fission Reaction? _____________ and ___________ 2) Einstein Stated that ________ and ________ were related to each other. 3) A series of Nuclear Fission reactions are called a ___________. 4) In order for a Nuclear Fission to take place it must reach ____________. Learning Check…

22 1) Which elements are produced from Uranium 236 going through Nuclear Fission Reaction? Barium and krypton 2) Einstein Stated that mass and energy were related to each other. 3) A series of Nuclear Fission reactions are called a chain reaction. 4) In order for a Nuclear Fission to take place it must reach critical mass. Learning Check…

23 Nuclear Fusion  Splitting one nucleus of U-235 releases about 30 million times more energy than when one molecule of dynamite explodes.

24  State a relationship for each of the following different sets of ratios:  1 foot; 12 inches  3 feet; 1 yard  1 inch; 2.54 cm  1 kg; 1000 grams  100 cm; 1 meter Do Now…

25 Nuclear Fusion  Splitting one nucleus of U-235 releases about 30 million times more energy than when one molecule of dynamite explodes.  In a nuclear fusion reaction, two small, light nuclei combine to form one larger, heavier nucleus.

26 Nuclear Fusion  Splitting one nucleus of U-235 releases about 30 million times more energy than when one molecule of dynamite explodes.  In a nuclear fusion reaction, two small, light nuclei combine to form one larger, heavier nucleus.  Fusion combines nuclei & fission splits them apart.

27 How are temperature & fusion related?  How can two nuclei get close enough to combine?

28 How are temperature & fusion related?  How can two nuclei get close enough to combine? They must be moving very fast.

29 How are temperature & fusion related?  How can two nuclei get close enough to combine? They must be moving very fast.  All nuclei positively charged  Thus repel each other

30 How are temperature & fusion related?  How can two nuclei get close enough to combine? They must be moving very fast.  All nuclei positively charged  Thus repel each other  KE must overcome electric force to push them close enough to combine  KE increases as temperature increases

31 How are temperature & fusion related?  How can two nuclei get close enough to combine? They must be moving very fast.  All nuclei positively charged  Thus repel each other  KE must overcome electric force to push them close enough to combine  KE increases as temperature increases  Temp must be millions of °C like Sun & other stars

32 1) The Sun produced energy from ____________? a) Fusionb) Fission c) Helium 2) Nuclear Fusion reactions will result in a larger atomic nucleus a) Trueb) False 3) Small nucleus are a good source of Nuclear Fusion. a) Trueb) False 4) Kinetic Energy ___________ as temperature __________. a) Increase, decreaseb) increase, increase c) decrease, Increased) decrease, decrease Learning Check…

33 1) The Sun produced energy from ____________? a) Fusion 2) Nuclear Fusion reactions will result in a larger atomic nucleus a) True 3) Small nucleus are a good source of Nuclear Fusion. b) False 4) Kinetic Energy increase as temperature increase. a) Increase, decreaseb) increase, increase c) decrease, Increased) decrease, decrease Learning Check…

34  In your groups:  Find modern day uses of Nuclear Energy. Can either be Fusion or Fission reactions and how they are used in the world.  Second, how do they impact our environment and are they safe to use.  Be prepared to explain your answer to the classroom. Nuclear Research

35 How does the Sun produce energy?  The Sun, made mostly of H produces its energy by fusion of H nuclei  2 protons (H-1) fuse to make a H isotope (H-2); then H-1 + H-2 form an isotope of He-3.

36 How does the Sun produce energy? To complete the process, 4 H nuclei combine into 1 He nucleus during which a small amount of matter changes into a huge amount of energy.

37 Fusion on the Sun  The heat & light Earth receives comes from this process.  About 1% of the Sun ’ s hydrogen has been changed into energy.  Sun has enough H to continue fusion reactions for another 5 billion years.

38 Nuclear Energy Video  http://www.youtube.com/v/cxuAJSr9L2k http://www.youtube.com/v/cxuAJSr9L2k https://www.youtube.com/v/wfPza-R2sAY  http://www.youtube.com/v/VJfIbBDR3e8 http://www.youtube.com/v/VJfIbBDR3e8

39  https://www.youtube.com/v/8BrzBvytwCs https://www.youtube.com/v/8BrzBvytwCs  https://www.youtube.com/v/PbFSn6PWjkM https://www.youtube.com/v/PbFSn6PWjkM  https://www.youtube.com/v/z1ihC1I-bI0 https://www.youtube.com/v/z1ihC1I-bI0  https://www.youtube.com/v/MpJebEOE084 https://www.youtube.com/v/MpJebEOE084 Radioactive decay

40 Using Nuclear Reactions in Medicine  A tracer is a radioactive isotope used to find or keep track of a molecule as it moves through your body.

41 How are iodine tracers used?  If the thyroid gland in your neck is not working properly, you get sick. The radioactive isotope I-131 is used to see if the thyroid is working properly. The I- 131 decays giving off gamma rays which can be detected.

42 How can cancer be treated with radioactivity?  Radiation can be used to stop some cells from growing into tumors.

43 How can cancer be treated with radioactivity?  Radiation can be used to stop some cells from growing into tumors.  Sometimes a radioactive isotope can be placed inside or near a tumor; other times, tumors can be treated from outside the body.

44 How can cancer be treated with radioactivity?  Radiation can be used to stop some cells from growing into tumors.  Sometimes a radioactive isotope can be placed inside or near a tumor; other times, tumors can be treated from outside the body.  The radiation emitted when particles decay can turn nearby atoms into ions.

45 How can cancer be treated with radioactivity?  If a source of radiation is placed near cancer cells, atoms in those cells can be ionized such as atoms in DNA or RNA which can stop the tumor from growing or even kill it.

46 How can cancer be treated with radioactivity?  If a source of radiation is placed near cancer cells, atoms in those cells can be ionized such as atoms in DNA or RNA which can stop the tumor from growing or even kill it.  Because cancer cells grow quickly, radiation affects them more than other cells. Patients receiving radiation suffer side effects when it ionizes healthy cells.

47 1) When radiation is emitted it can cause nearby atoms to be turned into ions? a) Trueb) Falsec) only in some instances 2) I-131 gives off x-rays which can be detected by medical equipment. a) Trueb) False 3) Radiation can be used to kill ____________ cells in the human body. 4) A __________ is a radioactive isotope used to track molecules. Learning Check…

48 1) When radiation is emitted it can cause nearby atoms to be turned into ions? a) True 2) I-131 gives off x-rays which can be detected by medical equipment. b) False (gamma rays) 3) Radiation can be used to kill cancer cells in the human body. 4) A tracer is a radioactive isotope used to track molecules. Learning Check…

49 Fission BothFusion Complete the Venn diagram by listing one thing that fission & fusion have in common, one thing that applies only to fission, & one thing that applies only to fusion,

50 Fission BothFusion Complete the Venn diagram by listing one thing that fission & fusion have in common, one thing that applies only to fission, & one thing that applies only to fusion, Reactions produce energy Process of splitting a nucleus into smaller nuclei 2 small, light nuclei combine to form one larger, heavier nucleus


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