Nuclear Tech Terms, Radioactivity And Its Application

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Quick Revision ( SCIENCE SERIES, Art 2):   NUCLEAR TECHNOLOGY, RADIOACTIVITY and Its application

 

 

Nuclear technology: Nuclear technology is technology that involves the nuclear reaction of atomic nuclei. Among the notable nuclear technologies are Nuclear Reactors, nuclear medicine and nuclear weapons.

 

BASIC CONCEPTS:

Nuclear Energy: The energy produced due to changes in the structure of the nuclei of atoms is called nuclear energy. Nuclear energy is produced manually and via man made operations. Example Sun, nuclear reactors, nuclear weapons etc.

Nuclear fission: In this nuclei of atom splits causing energy to be released. The atom bomb and nuclear reactors work on the principle of fission.

Nuclear fusion: the nuclei of atoms fused together. As a result of this energy is released. This happens only under very hot condition. Example in sun Hydrogen nuclei fused together to form Helium. Hydrogen bomb etc.

Chain reaction: It is a process in which neutrons released in fission produce an additional fission in at least one another nucleus. This nucleus in turn produces neutrons, and the process repeats. This process may be controlled( nuke reactors) or uncontrolled( nuclear weapons)

 

Radioactivity:   Radioactivity is a physical process. As the name implies it is the act of emitting radiation spontaneously. In simple terms if atomic nucleus is unstable and want to loose some energy, it will release energy in the form of radiations. There are several types of particles or waves that may shoot out of a radioactive nucleus. Alpha particles, beta particles, gamma rays and neutrons are the most common form of ionizing radiation.

Application of radioactivity:

  1. Found extensive use in diagnosis and therapy eg. Phosphorous-32 is used to identify the cancerous cell. As cancer cell absorb more phosphorous, Iodine 131 is employ to determine cardiac output, plasma volume and fat Metabolism and particularly to measure the activity of thyroid gland.
  2. To treat cancer cells: cobalt-60 and cesium-137 administered selectively to malignant tumours and so minimize damage to adjacent healthy tissue.
  • Energy

Nuclear reactors work on the principle of radioactivity. The energy released is utilised for energy generation. Nuclear fission and nuclear fusion are two examples of radioactivity.

  • Strategic purpose

Radioactivity is used to develop the weapon of mass destructions. Hydrogen bomb eg.

Used to preserve certain kind of foods by killing microorganism that cause spoilage.

  • Earth sciences:

Used in minerology, used for dating technique , carbon-14 technique

Radioactive tracer are used in smoke detector. To identify even a minute change in the concentration. Used to measure deep water currents in Oceans and snow water content in watersheds.

Study of complex processes. For eg how plant generate energy. Thousands of plant metabolic studies have been conducted on amino acids and compounds of sulphur, phosphorous and nitrogen.

 


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Nuclear technology is a branch of science that deals with the application of nuclear energy. Nuclear energy is the energy released when the nucleus of an atom splits apart (fission) or when two nuclei join together (fusion). Nuclear technology has a wide range of applications, including medicine, power generation, and weapons.

Nuclear technology is based on the principles of Nuclear physics. Nuclear physics is the study of the structure and properties of the atomic nucleus. The nucleus is made up of protons and neutrons, which are held together by the strong nuclear force. The strong nuclear force is a very powerful force that is responsible for holding the nucleus together.

When a nucleus splits apart, it releases a large amount of energy. This energy can be used to generate electricity, power spacecraft, or create nuclear weapons. Nuclear fusion is the opposite of nuclear fission. In nuclear fusion, two nuclei join together to form a heavier nucleus. This process also releases a large amount of energy. Nuclear fusion is the process that powers the sun and other stars.

Radioactivity is the process by which an unstable atomic nucleus loses energy by radiation. Radiation can be in the form of alpha particles, beta particles, or gamma rays. Alpha particles are helium nuclei, beta particles are electrons, and gamma rays are high-energy photons. Radioactivity can be used to generate electricity, sterilize medical equipment, and treat cancer.

Nuclear technology is a powerful tool that can be used for good or evil. It is important to understand the risks and benefits of nuclear technology before using it.

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Nuclear Tech Terms

Radioactivity and Its Application

Nuclear technology is a broad field that encompasses a wide range of applications, from nuclear power generation to medical imaging. Here are some frequently asked questions about nuclear technology:

Radioactivity is the process by which an unstable atomic nucleus loses energy by radiation. This radiation can take the form of alpha particles, beta particles, or gamma rays. Radioactivity is a natural phenomenon that occurs in all Elements, but some elements are more radioactive than others.

Radioactivity has many applications, including:
* Medical imaging, such as X-rays and CT scans.
* Treatment of cancer.
* Dating fossils and artifacts.
* Production of electricity.

Radioactivity is also a potential hazard, as exposure to radiation can cause cancer. However, the risks of radiation exposure can be minimized by following safety precautions.

Here are some frequently asked questions about radioactivity:

  1. What is the process of radioactive decay?
    (A) The release of energy from an unstable atomic nucleus
    (B) The conversion of one element into another
    (C) The splitting of an atomic nucleus into two smaller nuclei
    (D) The fusion of two atomic nuclei into a larger nucleus

  2. What is the most common type of radioactive decay?
    (A) Alpha decay
    (B) Beta decay
    (C) Gamma decay
    (D) Positron emission

  3. What is the half-life of a radioactive element?
    (A) The time it takes for half of a sample of the element to decay
    (B) The time it takes for a radioactive element to release half of its energy
    (C) The time it takes for a radioactive element to convert into another element
    (D) The time it takes for a radioactive element to split into two smaller nuclei

  4. What are some of the uses of radioactive elements?
    (A) Medicine
    (B) Industry
    (C) agriculture
    (D) All of the above

  5. What are some of the dangers of radioactive elements?
    (A) Radiation poisoning
    (B) Cancer
    (C) Genetic mutations
    (D) All of the above

  6. What is the difference between nuclear fission and nuclear fusion?
    (A) Nuclear fission is the splitting of an atomic nucleus, while nuclear fusion is the combining of two atomic nuclei.
    (B) Nuclear fission is a slow process, while nuclear fusion is a fast process.
    (C) Nuclear fission releases energy, while nuclear fusion absorbs energy.
    (D) Nuclear fission is a safe process, while nuclear fusion is a dangerous process.

  7. What is nuclear power?
    (A) The use of nuclear energy to generate electricity
    (B) The use of nuclear energy to create weapons
    (C) The use of nuclear energy to propel ships
    (D) All of the above

  8. What are some of the advantages of nuclear power?
    (A) It is a clean source of energy.
    (B) It is a reliable source of energy.
    (C) It is a cost-effective source of energy.
    (D) All of the above

  9. What are some of the disadvantages of nuclear power?
    (A) It is a dangerous source of energy.
    (B) It is a waste-producing source of energy.
    (C) It is a proliferation-prone source of energy.
    (D) All of the above

  10. What is the future of nuclear power?
    (A) It is a dying technology.
    (B) It is a technology that is here to stay.
    (C) It is a technology that will be replaced by other sources of energy.
    (D) It is a technology that will be used more and more in the future.

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