Summative Assessment Review!

... one since its total must be the same on both the left and the right of the arrow and the electron on the right adds a negative one. • The A (atomic mass)number is unchanged. • The Z number determines the element so look for it on the Periodic Table. ...

Chapter 7 - Bakersfield College

... D. Binding energy makes stable heavier nuclei possible (beyond hydrogen) which in turn accounts for the various elements and forms of matter found in the physical universe. 7-9. Nuclear Fission A. In 1939, uranium-235 was discovered to undergo nuclear fission when struck by a neutron. 1. A nucleus o ...

Chapter 9: Nuclear Changes

... - become stable by undergoing nuclear decay - results in a different isotope or an entirely different element - nuclear ________- the particles that are released from the nucleus during radioactive decay - may have effects on other materials 4 Types of Nuclear Radiation 1) ____________ particles (__ ...

Physics: Principles and Applications, 6e Giancoli

... 5) Compared to the masses of its separate protons and neutrons, the total mass of a stable nucleus is always A) less. B) the same. C) greater. D) zero. 6) When nucleons join to form a stable nucleus, energy is A) destroyed. B) absorbed. C) released. D) not transferred. 7) The binding energy of a nuc ...

Nuclear Reactions Review

... nuclear energy as a power source? a.Nuclear energy produces less energy than the burning of coal. b.Nuclear energy produces air pollution. c.Nuclear waste must be safely stored. d.The fuel source is very limited. ...

Nuclear Reactions Review powerpt

... nuclear energy as a power source? a.Nuclear energy produces less energy than the burning of coal. b.Nuclear energy produces air pollution. c.Nuclear waste must be safely stored. d.The fuel source is very limited. ...

Atomic Structure and Radioactivity

... Henri Becquerel found that uranium (U) exposed a photographic plate. In other words, uranium emitted penetrating radiation. ...

Nuclear Chemistry

... study of the nucleus and reactions between nuclei. Remember that virtually all of the mass of an atom resides in the nucleus, as does all of the positive charge. Nuclear energy is a much greater form of energy than bond energy. ...

4.1 The Concepts of Force and Mass

...  Decay ...

Unit #12: Nuclear Chemistry

... • Balancing an Alpha emission equation ...

File - Dr. Wall`s Science

... off X-rays • Placed a fluorescent mineral on top of a photographic plate wrapped in paper • Put it in sunlight and got an image of mineral ...

NUCLEAR CHEMISTRY

... a. Travel at speeds close to the speed of light b. Penetrating ability about 100 times greater than that of alpha particles. c. They have a range of a few meters in air. ...

nuclear chemistry

...  If a system loses mass, it loses energy( exothermic)  If a system gains mass, it gains energy ( endothermic)  Since c2 is a very large number, small mass changes create large energy changes NUCLEAR BINDING ENERGY  The mass of a nucleus is less than the mass of its nucleons  This is termed mas ...

Nuclear Chemistry

... – If you have a sample of 50 grams. How much of the sample will be remaining after 1 half life? • After 2 half lives? ...

Radioactivity - Miami Beach Senior High School

... • When a uranium nucleus is hit by a neutron the following happens: • The nucleus splits into two smaller nuclei, which are radioactive. • More neutrons are released. • The additional neutrons released may also hit other uranium nuclei and cause them to split. Even more neutrons are then released, ...

Document

... 1. The amount of material left after two half-lives is _one-fourth (1/4) _ of the original amount. 2. _Fission_ means "to divide." 3. _Nuclear Fusion_ is the combining of two low-mass nuclei into one nucleus with a larger mass. 4. Radioactive isotopes that are put into the body to monitor a bodily p ...

Radioactive Decay Series

... Nuclear Fission and Nuclear Fusion Nuclear fission is when a very heavy nuclei splits into more stable nuclei of intermediate mass. This process can happen spontaneously or from nuclear bombardment The process releases enormous amounts of usable energy The energy is converted from the change in mas ...

4 slides per page() - Wayne State University Physics and

... The 235U nucleus captures a thermal (slow(slow-moving) neutron This capture results in the formation of 236U*, and the excess energy of this nucleus causes it to undergo violent oscillations ...

1 slide per page() - Wayne State University Physics and Astronomy

... Energy in a Fission Process Binding energy for heavy nuclei is about 7.2 MeV per nucleon Binding energy for intermediate nuclei is about 8.2 MeV per nucleon Therefore, the fission fragments have less mass than the nucleons in the original nuclei This decrease in mass per nucleon appears as ...

ppt

... Energy in a Fission Process  Binding energy for heavy nuclei is about 7.2 MeV per nucleon  Binding energy for intermediate nuclei is about 8.2 MeV per nucleon  Therefore, the fission fragments have less mass than the nucleons in the original nuclei  This decrease in mass per nucleon appears as ...

Physical Science: Nuclear Chemistry Study Guide

... b. Hydrogen is used, and hydrogen is easily obtained from water. c. No harmful waste products are produced. d. Fusion reactors require less energy than fission reactors do. ...

Lithium 6.941 - mrkearsley.com

... Alpha Emission – A helium nucleus (positively charged) is emitted from a large atom. This will drop the mass by four and the atomic number by two. The extra electrons from the large atom are quickly absorbed into the environment. Beta Emission – There are three types of beta emission. This will not ...

Radioactivity and Nuclear Reactions

... material required so that each fission reaction produces approximately one more fission reaction. • Nuclear power plants use control rods made of nonfissionable material that can absorb neutrons. • The control rods are moved in and out of the fissionable material to control the rate of the chain rea ...

chapter 21 blm answer key

... the nucleus splits into two smaller nuclei and some neutrons. There are a number of possible fission products—the only restriction is that the total mass number of the products must remain the same as the total mass number of the reactants. For example, the fission of uranium-235 can produce an atom ...

Isotope Half-Life Radiation Emitted

... http://library.thinkquest.org/06aug/01200/Graphics/705px-Nuclear_fireball.jpg ...

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Nuclear fission

In nuclear physics and nuclear chemistry, nuclear fission is either a nuclear reaction or a radioactive decay process in which the nucleus of an atom splits into smaller parts (lighter nuclei). The fission process often produces free neutrons and photons (in the form of gamma rays), and releases a very large amount of energy even by the energetic standards of radioactive decay.Nuclear fission of heavy elements was discovered on December 17, 1938 by German Otto Hahn and his assistant Fritz Strassmann, and explained theoretically in January 1939 by Lise Meitner and her nephew Otto Robert Frisch. Frisch named the process by analogy with biological fission of living cells. It is an exothermic reaction which can release large amounts of energy both as electromagnetic radiation and as kinetic energy of the fragments (heating the bulk material where fission takes place). In order for fission to produce energy, the total binding energy of the resulting elements must be less negative (higher energy) than that of the starting element.Fission is a form of nuclear transmutation because the resulting fragments are not the same element as the original atom. The two nuclei produced are most often of comparable but slightly different sizes, typically with a mass ratio of products of about 3 to 2, for common fissile isotopes. Most fissions are binary fissions (producing two charged fragments), but occasionally (2 to 4 times per 1000 events), three positively charged fragments are produced, in a ternary fission. The smallest of these fragments in ternary processes ranges in size from a proton to an argon nucleus.Apart from fission induced by a neutron, harnessed and exploited by humans, a natural form of spontaneous radioactive decay (not requiring a neutron) is also referred to as fission, and occurs especially in very high-mass-number isotopes. Spontaneous fission was discovered in 1940 by Flyorov, Petrzhak and Kurchatov in Moscow, when they decided to confirm that, without bombardment by neutrons, the fission rate of uranium was indeed negligible, as predicted by Niels Bohr; it wasn't.The unpredictable composition of the products (which vary in a broad probabilistic and somewhat chaotic manner) distinguishes fission from purely quantum-tunnelling processes such as proton emission, alpha decay and cluster decay, which give the same products each time. Nuclear fission produces energy for nuclear power and drives the explosion of nuclear weapons. Both uses are possible because certain substances called nuclear fuels undergo fission when struck by fission neutrons, and in turn emit neutrons when they break apart. This makes possible a self-sustaining nuclear chain reaction that releases energy at a controlled rate in a nuclear reactor or at a very rapid uncontrolled rate in a nuclear weapon.The amount of free energy contained in nuclear fuel is millions of times the amount of free energy contained in a similar mass of chemical fuel such as gasoline, making nuclear fission a very dense source of energy. The products of nuclear fission, however, are on average far more radioactive than the heavy elements which are normally fissioned as fuel, and remain so for significant amounts of time, giving rise to a nuclear waste problem. Concerns over nuclear waste accumulation and over the destructive potential of nuclear weapons may counterbalance the desirable qualities of fission as an energy source, and give rise to ongoing political debate over nuclear power.

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Nuclear fission