Answer the question in maximum 15 to 20 words. This question carries 03 marks.[MPPSC 2023] What is the Shanti Swarup Bhatnagar Award intended to accomplish?
Modern Periodic Law Introduction The modern periodic law is a fundamental concept in chemistry that defines the arrangement of elements in the periodic table. It represents an advancement from the earlier periodic laws and is based on the understanding of atomic structure and electron configuration.Read more
Modern Periodic Law
Introduction
The modern periodic law is a fundamental concept in chemistry that defines the arrangement of elements in the periodic table. It represents an advancement from the earlier periodic laws and is based on the understanding of atomic structure and electron configuration.
Definition
The modern periodic law states that:
- “The properties of elements are a periodic function of their atomic numbers.”
This means that when elements are arranged in order of increasing atomic number, their chemical and physical properties exhibit a periodic pattern.
Key Concepts
- Atomic Number as the Basis
- Atomic Number: Unlike Mendeleev’s periodic law, which was based on atomic mass, the modern periodic law is based on the atomic number of elements.
- Arrangement: Elements are arranged in the periodic table in increasing order of their atomic numbers.
- Example: The periodic table starts with Hydrogen (atomic number 1) and progresses through elements like Helium (atomic number 2), Lithium (atomic number 3), and so on.
- Periodic Properties
- Periodic Trends: The periodic table shows trends in element properties such as atomic radius, ionization energy, and electronegativity. These properties recur periodically as one moves across periods or down groups in the table.
- Example: The atomic radius decreases across a period from left to right due to increased nuclear charge, while it increases down a group due to the addition of electron shells.
- Periodic Table Structure
- Periods and Groups: The periodic table is organized into rows (periods) and columns (groups). Elements in the same group have similar chemical properties due to their similar electron configurations.
- Example: Alkali metals (Group 1) such as Sodium (Na) and Potassium (K) exhibit similar reactivity with water, while noble gases (Group 18) like Neon (Ne) and Argon (Ar) are chemically inert.
Recent Examples
- Discovery of New Elements
- Oganesson (Og): With atomic number 118, Oganesson is a recent addition to the periodic table. Its properties and placement in the noble gases group highlight the relevance of modern periodic law in predicting element characteristics.
- Periodic Trends in Technology
- Lanthanides and Actinides: Understanding periodic trends has applications in materials science. For example, the unique properties of lanthanides and actinides are utilized in creating high-performance magnets and nuclear fuel.
- Chemical Reactions
- Transition Metals: Elements like Titanium (Ti) and Iron (Fe) demonstrate periodic trends in their oxidation states and catalytic properties, which are crucial for industrial processes and reactions.
Conclusion
The modern periodic law, based on atomic number, provides a systematic framework for understanding the periodicity of element properties. It underpins the organization of the periodic table and aids in predicting the behavior of elements. Recent advancements and discoveries in chemistry continue to affirm the significance of this law in scientific research and technological applications. For UPSC Mains aspirants, a thorough understanding of the modern periodic law is essential for grasping the fundamental principles of chemistry and their practical implications.
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Purpose of Shanti Swarup Bhatnagar Award The Shanti Swarup Bhatnagar Award is one of India’s most prestigious awards in the field of science and technology. Established by the Council of Scientific and Industrial Research (CSIR) in 1958, this award honors outstanding research and contributions to vaRead more
Purpose of Shanti Swarup Bhatnagar Award
The Shanti Swarup Bhatnagar Award is one of India’s most prestigious awards in the field of science and technology. Established by the Council of Scientific and Industrial Research (CSIR) in 1958, this award honors outstanding research and contributions to various scientific disciplines. Here is a detailed explanation of the purpose of the Shanti Swarup Bhatnagar Award, along with recent examples:
1. Recognize Outstanding Scientific Achievements
2. Encourage and Promote Scientific Research
3. Support and Advance Scientific Careers
4. Enhance National Scientific Capabilities
5. Promote Collaboration and Knowledge Sharing
**6. Foster a Scientific Culture
Conclusion
The Shanti Swarup Bhatnagar Award serves multiple purposes: recognizing outstanding scientific achievements, encouraging and promoting research, supporting scientific careers, enhancing national scientific capabilities, promoting collaboration, and fostering a scientific culture. Through its recognition of exceptional contributions, the award significantly advances the field of science and technology in India and contributes to the global scientific community.
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