Nuclear Fusion By: Yours Truly, Christie Osadchy, and The Fool Who Ripped His Pants.

Slides:

Advertisements

Similar presentations

Nuclear Energy Nuclear Reactions Nuclear Fission / Nuclear Fusion Harnessing the Power of the Nucleus.

Advertisements

Nuclear Binding Energy

Nuclear Reactions: AN INTRODUCTION TO FISSION & FUSION Farley Visitors Center.

Section 2Nuclear Changes Nuclear Forces 〉 What holds the nuclei of atoms together? 〉 The stability of a nucleus depends on the nuclear forces that hold.

The equation E = mc 2 is probably the most recognized symbol of physics. This equation tells us that matter and energy are really two forms of the same.

Nuclear Fission and Fusion. Nuclear Fission Nuclear Fission: The splitting of a massive nucleus into two smaller nuclei.

 Fusion is the nuclear reaction in which the light atoms align themselves with heaver. At the same time energy released.  Fusion is in the sun and stars.

Nuclear Fission and Fusion

Nuclear Fission & Fusion

Fission and Fusion Graphic: Energy and Mass Nuclear changes occur with small but measurable losses of mass. The lost mass is called.

Center of Mass. Motion of the Center of Mass The center of mass of a system moves as if all of the mass of the system were concentrated at that point.

Fusion. Light Nuclei  Light nuclei have relatively high rest masses. H-1: uH-1: u H-2: uH-2: u He-3: uHe-3:

A nucleus is more than just mass

Nuclear Reactions: AN INTRODUCTION TO FISSION & FUSION Farley Visitors Center.

Nuclear Fission & Fusion. History: Hahn & Strassman (1939) Bombarded Uranium-235 samples with neutrons expecting the Uranium-235 to capture neutrons Instead,

NUCLEAR FUSION NUCLEAR FISSION. chools/gcsebitesize/scie nce/add_aqa/atoms_rad iation/nuclearact.shtmlhttp:// chools/gcsebitesize/scie.

Unit 8 Section 2: Nuclear Reactions

Section 2Nuclear Changes Section 2: Nuclear Fission and Fusion Preview Key Ideas Bellringer Nuclear Forces Nuclear Fission Chain Reaction Nuclear Fusion.

Unit 2 – The Atom Nuclear Chemistry Fusion and Fission.

Fission and Fusion.

"More than any other time in history, mankind faces a crossroads. One path leads to despair and utter hopelessness. The other, to total extinction. Let.

Nuclear Fusion D-T Fusion Reactions. Nuclear fusion Nuclear fusion occurs when two light nuclei merge to form a heavier nucleus. The binding energy curve.

Fission= to split In Biology, tissue grows by the division of cells.

Nuclear Fusion Nuclear Fusion is a process in which two or more smaller nuclei collide and form a new, larger nucleus. In some fusion reactions, a neutron,

Nuclear Reactions: AN INTRODUCTION TO FISSION & FUSION Farley Visitors Center.

Electrostatics and Nuclear Processes. (From The Physics Classroom)

Nuclear Reactions Powering the Sun since 4.6 Billion B.C.

NUCLEAR MASS AND ENERGY Physics 12. Clip of the day:  Minutephysics…on Einstein and uncertainty principle 

Ch 9: Origin of Element Abundances in the Universe: Primordial Composition: 77% Hydrogen, 23% Helium, 3 parts per billion Lithium Current Composition:

For each atom, in its natural state, the number of electrons and the number of protons is equal. This number may or may not be the same as the number.

Nuclear Fission and Fusion Nuclear Radiation Today Ms. Miranda Mack Physical Science Honors 5 th pd. March 2, 2009.

Fusion in the Stars Nunez & Panogalinog. Nuclear Fusion in stars is one of the most important reasons which make life on Earth possible! ○ HOW IS THAT.

Nuclear Fission and Fusion Unit 8 – Part B. Nuclear Balance Delicate balance between attractive strong nuclear forces and repulsive electric forces. In.

Nuclear Chemistry. Nuclear Chemistry looks at the number of protons and neutrons in an atom Radioactive Decay = Spontaneous disintegration of a nucleus.

Add to table of Contents: Fusion/Fission LabPg. 74 Fission and FusionPg. 75.

Radioactivity Nuclear Fission and Fusion. Definition: breaking an unstable nucleus into two smaller nuclei Basic formula Element+ Neutron → + 3 neutronsSmaller.

NUCLEAR FUSION.

Introduction to Nuclear Fission and Fusion

Nuclear Reactions: FISSION & FUSION ã Nuclear reactions deal with interactions between the nuclei of atoms ã Both fission and fusion processes deal with.

Nuclear Reactions Fission and Fusion. FISSION The splitting of an atomic nucleus into 2 smaller particles. Animation.

Nuclear Reactions: AN INTRODUCTION TO FISSION & FUSION Farley Visitors Center.

Nuclear binding energy emre özyetiş 10-U. The binding energy is the energy required to decompose the nucleus into protons and neutrons.

Section 2Nuclear Changes Section 2: Nuclear Fission and Fusion Preview Key Ideas Bellringer Nuclear Forces Nuclear Fission Chain Reaction Nuclear Fusion.

Fusion The reason we have life on Earth. Expectation #8: Definition A nuclear reaction in which smaller atomic nuclei collide at high speed to make a.

Nuclear Fission & Fusion. History: Hahn & Strassman (1939) Bombarded Uranium-235 samples with neutrons expecting the Uranium-235 to capture neutrons Instead,

 Explain how stars form.  Explain how stars get their energy.  Give examples of why stars change over time.  Compare the evolution of medium and high.

Nuclear Fusion and Fission

Fission and Fusion are both nuclear reactions that involve the particles in the nucleus of an atom.

Nuclear Fission and Fusion Chapter 10.2 Notes. Nuclear Forces Protons and neutrons are tightly packed inside the nucleus Remember that unstable nuclei.

Nuclear Fusion By: Renee Alshefski. What is Nuclear Fusion? Nuclear fusion is the process by which multiple atomic nuclei join together to form a single.

Fission and Fusion. Nuclear Reactions Two types of nuclear reactions that release energy.  Fission  Fusion.

Nuclear Fission and Fusion Notes. November 3, 2008 What part of the atom is affected by Nuclear Chemistry? Do you think the benefits of nuclear energy.

Nuclear Stability You should be aware that: A nucleus can be naturally unstable Instability can be induced into a nucleus – for example if we bombard.

AN INTRODUCTION TO FISSION & FUSION

AN INTRODUCTION TO FISSION & FUSION

Fusion and Fission.

E = mc2 If you can’t explain it simply, you haven’t learned it well enough. Einstein.

ELEMENTary Education Answer the following questions in your notebook:

Copyright © Cengage Learning. All rights reserved Review Atomic Number (Z) – number of protons Mass Number (A) – sum of protons and neutrons Copyright.

Nuclear Chemistry Bravo – 15,000 kilotons.

Harnessing the Power of the Sun

14.4 Nuclear Reactions.

Nuclear Reactions: FISSION & FUSION.

Harnessing the Power of the Sun

14.4 Nuclear Reactions.

Fission and Fusion.

AN INTRODUCTION TO FISSION & FUSION

Nuclear Fission and Fusion

AN INTRODUCTION TO FISSION & FUSION

Presentation transcript:

Nuclear Fusion By: Yours Truly, Christie Osadchy, and The Fool Who Ripped His Pants

Nuclear Fusion If light nuclei are forced together, they will fuse with a yield of energy because the mass of the combination will be less than the sum of the masses of the individual nuclei. If the combined nuclear mass is less than that of iron at the peak of the binding energy curve, then the nuclear particles will be more tightly bound than they were in the lighter nuclei, and that decrease in mass comes off in the form of energy according to the Einstein relationship. For elements heavier than iron, fission will yield energy.

Fusion Power Fusion power is the power generated by nuclear fusion reactions. In this kind of reaction, two light atomic nuclei fuse together to form a heavier nucleus and in doing so, release a large amount of energy.

Some Facts Nuclear fusion is the energy source of the future. It is what provides the sun and the stars with the energy to shine continuously for billions of years. Fusion has been used here on earth to produce nuclear bombs, but has not yet been controlled so that we can obtain useful energy.

How Fusion Work Fusion is what happens when two atomic nuclei are forced together by high pressure... high enough to overcome the strong repulsive forces of the respective protons in the nuclei. When the nuclei fuse, they form a new element, and release excess energy in the form of a fast- moving neutron. The energy is 'extra' because the mass of the newly formed nucleus is less than the sum of the masses of the original two nuclei; the extra mass is converted to energy according to Einstein's equation E=mc 2 This energy can be used to do useful work