<–2/”>a >Nuclear physics
Atoms in nature generally are electrically neutral, as they have equal numbers of protons in the nucleus and orbiting electrons. However, within the nucleus there are other particles called neutrons, which are electrically neutral but have about the same mass as protons. There are two numbers used to characterize a nucleus:
Z, the atomic number, which equals the number of protons;
A, the mass number, which equals the number of nucleons (protons and neutrons).
An element X is defined by the atomic number Z , while A denotes the particular isotope of that element. The usual notation for an element X is AZ X – for example, there are four common isotopes of Carbon: 116 C , 126 C , 136 C , and 146 C , with 126 C being the most abundant ( > 98% ).
It is convenient in some circumstances to measure masses in terms of the unified mass unit, u, which is defined so that 12 C has a mass of 12 u exactly; in SI units,
1 u = 1.66 x 10- 27 kg . (1)
There is also another convenient unit of mass which arises from Einstein’s Special Theory of Relativity. We have not covered this in this course, so we simply quote the relevant (well-known) relation:
E = mc 2, (2)
which associates an energy E to a mass m , with c = 3.0 x 108 m/s being the speed of Light. Thus, dimensionally, E/c 2 is a unit of mass. It is customary to express this unit in terms of MeV/c 2, where 1 MeV=10 6
eV= 1.6 x 10- 13 J – note that “c” here is considered part of the unit, and one does not substitute the numerical value of 3.0 x 108 m/s in it. This will be illustrated later in some examples. Through this relation one can find the energy equivalent of 1 u:
E = (1.67 x 10- 27 kg )(3.0 x 108 m/s )2
= 1.50 x 10- 10 J = 9.39 x 108 eV = 939 MeV , (3)
which is then written as
1 u = 939 MeV/c 2.
Nuclear physics deals with the properties of nuclei and how their properties may be understood in terms of the interactions between the constituents Thus the properties of nuclei have their origins in the basic interactions of elementary particles, quarks and gluons, while the macroscopic evolution of the universe is directly related to the interactions between nuclei.,
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What is nuclear physics?
Nuclear physics is the study of the structure, properties, and behavior of the atomic nucleus. It is a subfield of physics that also studies nuclear reactions, radioactive decay, and nuclear fusion.
What are the different types of nuclear reactions?
There are two main types of nuclear reactions: fission and fusion. Fission is the splitting of a large nucleus into two smaller nuclei, while fusion is the combining of two small nuclei into a larger nucleus.
What are the different types of radioactive decay?
There are three main types of radioactive decay: alpha decay, beta decay, and gamma decay. Alpha decay is the emission of an alpha particle, which is a helium nucleus. Beta decay is the emission of an electron or a positron. Gamma decay is the emission of a gamma ray, which is a high-energy photon.
What is nuclear fusion?
Nuclear fusion is the process of combining two or more atomic nuclei into a single heavier nucleus. This process releases a large amount of energy, which is why it is considered a potential source of clean energy.
What is nuclear fission?
Nuclear fission is the process of splitting a large atomic nucleus into two or more smaller nuclei. This process releases a large amount of energy, which is why it is used in nuclear power Plants.
What is nuclear waste?
Nuclear waste is the radioactive material that is produced as a byproduct of nuclear power generation. This waste must be carefully disposed of to prevent it from contaminating the Environment.
What is the nuclear chain reaction?
The nuclear chain reaction is a self-sustaining process in which the neutrons released by the fission of one nucleus cause the fission of other nuclei. This process can be used to generate electricity in a nuclear power plant.
What is the nuclear bomb?
The nuclear bomb is a weapon that uses nuclear fission or nuclear fusion to create an explosion. Nuclear bombs are the most destructive weapons ever created, and their use has the potential to cause widespread death and destruction.
What is the nuclear deterrent?
The nuclear deterrent is a policy of using nuclear weapons to deter a potential enemy from attacking. The idea is that if an enemy knows that they will be attacked with nuclear weapons if they attack, they will be less likely to attack in the first place.
What is the nuclear arms race?
The nuclear arms race was a competition between the United States and the Soviet Union to develop and stockpile nuclear weapons. The arms race began after World War II, and it continued until the collapse of the Soviet Union in 1991.
What is the nuclear non-proliferation treaty?
The nuclear non-proliferation treaty is an international treaty that aims to prevent the spread of nuclear weapons. The treaty was signed in 1968, and it has been ratified by 191 countries.
What is the nuclear umbrella?
The nuclear umbrella is a security guarantee that the United States provides to its allies. Under the nuclear umbrella, the United States promises to use nuclear weapons to defend its allies if they are attacked by a nuclear-armed country.
What is the nuclear winter?
The nuclear winter is a hypothetical scenario in which a nuclear war would cause a global Climate change that would result in a severe winter. The nuclear winter would be caused by the smoke and dust that would be released into the Atmosphere by the nuclear explosions. The smoke and dust would block out the sun, which would cause a drop in temperature and a disruption of the food chain.
What is the nuclear waste repository?
The nuclear waste repository is a facility where nuclear waste is stored. The nuclear waste repository is located in Yucca Mountain, Nevada.
What is the nuclear power plant?
The nuclear power plant is a facility where Nuclear Energy is used to generate electricity. The nuclear power plant uses a nuclear reactor to heat water, which turns into steam. The steam drives a turbine, which generates electricity.
What is the nuclear reactor?
The nuclear reactor is a device that uses nuclear fission to generate heat. The nuclear reactor is the heart of the nuclear power plant.
What is the nuclear fuel?
The nuclear fuel is the material that is used in the nuclear reactor. The nuclear fuel is typically uranium-235 or plutonium-239.
What is the nuclear meltdown?
The nuclear meltdown is a serious accident that can occur in a nuclear power plant. The nuclear meltdown occurs when the nuclear reactor overheats and the fuel rods melt. The nuclear meltdown can release large amounts of radiation into the environment.
What is the nuclear accident?
The nuclear accident is an event that occurs in a nuclear power plant that results in the release of radiation into
Sure, here are some MCQs without mentioning the topic Nuclear physics:
-
Which of the following is not a subatomic particle?
(A) Proton
(B) Neutron
(C) Electron
(D) Photon -
The nucleus of an atom is made up of which of the following particles?
(A) Protons and neutrons
(B) Electrons and protons
(C) Neutrons and photons
(D) Protons and electrons -
The number of protons in the nucleus of an atom is called the atom’s
(A) Atomic number
(B) Mass number
(C) Proton number
(D) Neutron number -
The number of neutrons in the nucleus of an atom is called the atom’s
(A) Atomic number
(B) Mass number
(C) Proton number
(D) Neutron number -
Atoms of the same element with different numbers of neutrons are called
(A) Isotopes
(B) Ions
(C) Molecules
(D) Compounds -
The process by which an unstable atomic nucleus emits radiation is called
(A) Radioactivity
(B) Fission
(C) Fusion
(D) Decay -
The process by which two or more atomic nuclei combine to form a heavier nucleus is called
(A) Radioactivity
(B) Fission
(C) Fusion
(D) Decay -
The process by which an atomic nucleus splits into two or more smaller nuclei is called
(A) Radioactivity
(B) Fission
(C) Fusion
(D) Decay -
Nuclear power plants use the process of
(A) Radioactivity
(B) Fission
(C) Fusion
(D) Decay -
Nuclear weapons use the process of
(A) Radioactivity
(B) Fission
(C) Fusion
(D) Decay