ਰਸਾਇਣ ਵਿਗਿਆਨ
ਵਿਕਿਪੀਡਿਆ ਤੋਂ
ਰਸਾਇਣਿਕ ਵਿਗਿਆਨ (in Greek: χημεία) is the science of matter that deals with the composition, structure, and properties of substances and with the transformations that they undergo. In the study of matter, chemistry also investigates its interactions with energy and itself (see physics, biology). Because of the diversity of matter, which is mostly in the form of atoms, chemists often study how atoms of different chemical elements interact to form molecules and how molecules interact with each other.
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[ਸੋਧ] ਜਾਣ-ਪਛਾਣ
Chemistry is a large field encompassing many subdisciplines that often overlap with significant portions of other sciences. The fundamental component of chemistry is that it involves matter in some way (this explains its broad reach). It may involve the interaction of matter with non-material phenomenon, such as energy for example. More central to chemistry is the interaction of matter with matter such as in the classic chemical reaction where chemical bonds are broken and made, forming new molecules.
Matter, such as the chair you are sitting in or the air you breathe, is known today to consist of molecules. Each molecule consists of small bits of matter known as atoms that are connected together through chemical bonds. Each atom consists of smaller bits of matter known as subatomic particles. The structure of the world we commonly experience and the properties of the matter we commonly interact with are determined by the nature of this matter on the chemical level. Steel is hard because of how the atoms are bound together. Wood will burn because it can react with oxygen in a chemical reaction. Water is a liquid at room temperature because of how each molecule of water interacts with its neighbors. In fact, you are a thinking, sentient being because of an on-going series of chemical reactions and other chemical interactions. You can see this text because of how light interacts with molecules called proteins in the back of your eye.
Chemistry is often called the central science because it is what connects most of the other sciences together. Chemistry is in some ways physics on a larger scale and in some ways is biology or geology on a smaller scale. Chemistry is used to understand and make better materials for engineering. It is used to understand the chemical mechanisms of disease as well as to create pharmaceuticals to treat disease. Chemistry is somehow involved in almost every science, every technology and every "thing".
With such a large area of study, it is impossible to know everything about chemistry and very difficult to summarize the field concisely. Even the most knowledgable, experienced chemist only knows a very narrow area of chemistry better than others. Of course, most chemists have a broad general knowledge of many areas of chemistry as well. Chemistry is divided into many areas of study called subdisciplines in which chemists specialize. The chemistry taught at the high school or early college level is often called "general chemistry" and is intended to be an introduction to a wide variety of fundamental concepts and to give the student the tools to continue on to more advanced subjects. Many concepts presented at this level are often incomplete and technically inaccurate yet of extraordinary utility. Chemists regularly use these simple, elegant tools and explanations in their work when they suffice because the best solution possible is often so overwhelmingly difficult and the true solution is usually unobtainable.
Presented below are summaries and links to other articles that contain knowledge on a wide variey of subdisciplines, techniques, theories and tools used in chemistry. Although a good knowledge of chemistry only comes with many years of study, you may find small bits of knowledge here that may be helpful.
[ਸੋਧ] ਰਸਾਇਣਿਕ ਵਿਗਿਆਨ ਵਿੱਚ ਅਧੀਨ-ਵਿਸ਼ੇ
Chemistry typically is divided into several major sub-disciplines. There are also several main cross-disciplinary and more specialized fields of chemistry.
- Analytical chemistry
- Analytical chemistry is the analysis of material samples to gain an understanding of their chemical composition and structure.
- Biochemistry
- Biochemistry is the study of the chemicals, chemical reactions and chemical interactions that take place in living organisms.
- Inorganic chemistry
- Inorganic chemistry is the study of the properties and reactions of inorganic compounds. The distinction between organic and inorganic disciplines is not absolute and there is much overlap, most importantly in the sub-discipline of organometallic chemistry.
- Organic chemistry
- Organic chemistry is the study of the structure, properties, composition, mechanisms, and reactions of organic compounds.
- Physical chemistry
- Physical chemistry is the study of the physical basis of chemical systems and processes. In particular, the energetic description of diverse chemical transformations are of interest to physical chemists. Important areas of study include chemical thermodynamics, chemical kinetics, statistical mechanics, and spectroscopy. Physical chemistry has large overlap with molecular physics.
- Theoretical chemistry
- Theoretical chemistry is the study of chemistry via theoretical reasoning (usually within mathematics or physics). In particular the application of quantum mechanics to chemistry is called quantum chemistry. Since the end of the second world war, the development of computers has allowed a systematic development of computational chemistry, which is the art of developing and applying computer programs for solving chemical problems. Theoretical chemistry has large overlap with molecular physics.
- ਹੋਰ ਖੇਤਰ
- Astrochemistry, Atmospheric chemistry, Chemical Engineering, Electrochemistry, Environmental chemistry, Geochemistry, History of chemistry, Materials science, Medicinal chemistry, Molecular Biology, Molecular genetics, Nuclear chemistry, Organometallic chemistry, Petrochemistry, Pharmacology, Photochemistry, Phytochemistry, Polymer chemistry, Supramolecular chemistry, Surface chemistry, and Thermochemistry.
[ਸੋਧ] ਮੁੱਢਲੇ ਸਿਧਾਂਤ
[ਸੋਧ] ਨਾਂ-ਕਰਨ ਢੰਗ
Nomenclature refers to the system for naming chemical compounds. There are well-defined systems in place for naming chemical species. Organic compounds are named according to the organic nomenclature system. Inorganic compounds are named according to the inorganic nomenclature system.
ਵੇਖੋ: IUPAC nomenclature
[ਸੋਧ] ਪਰਮਾਣੂ
ਮੁੱਖ ਲੇਖ: ਪਰਮਾਣੂ.
An atom is a collection of matter consisting of a positively charged core (the nucleus) which contains protons and neutrons, and which maintains a number of electrons to balance the positive charge in the nucleus.
[ਸੋਧ] ਤੱਤ
ਮੁੱਖ ਲੇਖ: ਰਸਾਇਣਿਕ ਤੱਤ
An element is a class of atoms which have the same number of protons in the nucleus. This number is known as the atomic number of the element. For example, all atoms with 6 protons in their nuclei are atoms of the chemical element carbon, and all atoms with 92 protons in their nuclei are atoms of the element uranium.
The most convenient presentation of the elements is in the periodic table, which groups elements with similar chemical properties together. Lists of the elements by name, by symbol, and by atomic number are also available.
Because the number of protons in the nucleus dictates the number of electrons surrounding the nucleus and their properties, and because the electrons are the outermost component of atoms (the component which presents a surface to the rest of the universe), the identity of an element dictates the interactions, or chemical transformations, in which it can participate. There may, however, be subtle changes in chemical properties brought about by the number of neutrons in the nucleus of otherwise "same" elements.
See also: isotope
[ਸੋਧ] ਯੋਗਿਕ
ਮੁੱਖ ਲੇਖ: ਰਸਾਇਣਿਕ ਯੋਗਿਕ
A compound is a substance with a fixed ratio of elements which determines the composition, and a particular organisation which determines chemical properties. For example, water is a compound containing hydrogen and oxygen in the ratio of two to one. Compounds are formed and interconverted by chemical reactions.
[ਸੋਧ] ਅਣੂ
ਮੁੱਖ ਲੇਖ: ਅਣੂ
ਇੱਕ ਅਣੂ ਇੱਕ ਸ਼ੁੱਧ ਯੋਗਿਕ ਦਾ ਨਾ-ਟੁੱਟਣਯੋਗ ਰੂਪ ਹੈ, ਜੋ ਕਿ ਵਿੱਲਖਣ ਕਿਸਮ ਦੇ ਗੁਣ ਰੱਖਦਾ ਹੈ। ਅਣੂ ਵਿੱਚ ਦੋ ਜਾਂ ਵੱਧ ਪਰਮਾਣੂ ਬੰਧਨ ਰਾਹੀਂ ਆਪਸ ਵਿੱਚ ਜੁੜੇ ਹੁੰਦੇ ਹਨ।
[ਸੋਧ] Ions
Main article: Ion.
An ion is a charged species, or an atom or a molecule that has lost or gained an electron. Positively charged cations (e.g. sodium cation Na+) and negatively charged anions (e.g. chloride Cl-) build neutral salts (e.g. sodium chloride NaCl). Examples of polyatomic ions that do not split up during acid-base reactions are hydroxide (OH-), or phosphate (PO43-).
[ਸੋਧ] ਬੰਧਨ
ਮੁੱਖ ਲੇਖ: ਰਸਾਇਣਿਕ ਬੰਧਨ
A chemical bond is the force which holds together atoms in molecules or crystals. In many simple compounds, valence bond theory and the concept of oxidation number can be used to predict molecular structure and composition. Similarly, theories from classical physics can be used to predict many ionic structures. With more complicated compounds, such as metal complexes, valence bond theory fails and alternative approaches which are based on quantum chemistry, such as molecular orbital theory, are necessary.
[ਸੋਧ] ਮਾਦੇ ਦੀ ਹਾਲਤ
ਮੁੱਖ ਲੇਖ: Phase (ਮਾਦਾ).
A phase is a set of states of a chemical system that have similar bulk structural properties, over a range of conditions, such as pressure or temperature. Physical properties, such as density and refractive index tend to fall within values characteristic of the phase. The phase of matter is defined by the phase transition, which is when energy put into or taken out of the system goes into rearranging the structure of the system, instead of changing the bulk conditions.
Sometimes the distinction between phases can be continuous instead of having a discrete boundary, in this case the matter is considered to be in a supercritical state. When three states meet based on the conditions, it is known as a triple point and since this is invariant, it is a convenient way to define a set of conditions.
The most familiar examples of phases are solids, liquids, and gases. Less familiar phases include plasmas, Bose-Einstein condensates and fermionic condensates and the paramagnetic and ferromagnetic phases of magnetic materials. Even the familiar ice has many different phases, depending on the pressure and temperature of the system. While most familiar phases deal with three-dimensional systems, it is also possible to define analogs in two-dimensional systems, which is getting a lot of attention because of its relevance to biology.
[ਸੋਧ] ਰਸਾਇਣਿਕ ਕਿਰਿਆਵਾਂ
ਮੁੱਖ ਲੇਖ: ਰਸਾਇਣਿਕ ਕਿਰਿਆ
Chemical reactions are transformations in the fine structure of molecules. Such reactions can result in molecules attaching to each other to form larger molecules, molecules breaking apart to form two or more smaller molecules, or rearrangement of atoms within or across molecules. Chemical reactions usually involve the making or breaking of chemical bonds.
[ਸੋਧ] Quantum chemistry
ਮੁੱਖ ਲੇਖ: Quantum chemistry.
Quantum chemistry describes the behavior of matter at the molecular scale. It is, in principle, possible to describe all chemical systems using this theory. In practice, only the simplest chemical systems may realistically be investigated in purely quantum mechanical terms, and approximations must be made for most practical purposes (e.g., Hartree-Fock, post Hartree-Fock or Density functional theory, see computational chemistry for more details). Hence a detailed understanding of quantum mechanics is not necessary for most chemistry, as the important implications of the theory (principally the orbital approximation) can be understood and applied in simpler terms.
[ਸੋਧ] ਨਿਯਮ
ਰਸਾਇਣ ਵਿਗਿਆਨ ਦਾ ਸਭ ਤੋਂ ਮੁੱਢਲਾ ਨਿਯਮ ਹੈ ਮਾਦਾ ਸਥਿਰਤਾ ਦਾ ਨਿਯਮ, which states that there is no detectable change in the quantity of matter during an ordinary chemical reaction. Modern physics shows that it is actually energy that is conserved, and that energy and mass are related; a concept which becomes important in nuclear chemistry. Conservation of energy leads to the important concepts of equilibrium, thermodynamics, and kinetics.
Further laws of chemistry elaborate on the law of conservation of mass. Joseph Proust's law of definite composition says that pure chemicals are composed of elements in a definite formulation; we now know that the structural arrangement of these elements is also important.
ਡਾਲਟਨ ਦਾ ਬਹੁ-ਅਨੁਪਾਤੀ ਨਿਯਮ ਕਹਿੰਦਾ ਹੈ ਕਿ says that these chemicals will present themselves in proportions that are small whole numbers (i.e. 1:2 O:H in water); although for biomacromolecules and mineral chemistry the ratios tend to require large numbers.
ਰਸਾਇਣ ਵਿਗਿਆਨ ਦੇ ਮੌਜੂਦਾ ਨਿਯਮ ਊਰਜਾ ਅਤੇ ਸੰਚਾਰ ਵਿੱਚ ਸਬੰਧ ਸਥਾਪਤ ਕਰਦੇ ਹਨ।
- In equilibrium, molecules exist in mixture defined by the transformations possible on the timescale of the equilibrium, and are in a ratio defined by the intrinsic energy of the molecules—the lower the intrinsic energy, the more abundant the molecule.
- Transforming one structure to another requires the input of energy to cross an energy barrier; this can come from the intrinsic energy of the molecules themselves, or from an external source which will generally accelerate transformations. The higher the energy barrier, the slower the transformation occurs.
- There is a hypothetical intermediate, or transition structure, that corresponds to the structure at the top of the energy barrier. The Hammond-Leffler Postulate states that this structure looks most similar to the product or starting material which has intrinsic energy closest to that of the energy barrier. Stabilizing this hypothetical intermediate through chemical interaction is one way to achieve catalysis.
- All chemical processes are reversible (law of microscopic reversibility) although some processes have such an energy bias, they are essentially irreversible.
[ਸੋਧ] ਰਸਾਇਣ ਵਿਗਿਆਨ ਦਾ ਇਤਹਾਸ
- ਅਲਚੀਮੀ(Alchemy)
- ਰਸਾਇਣਿਕ ਤੱਤਾਂ ਦੀ ਖੋਜ
- ਰਸਾਇਣ ਵਿਗਿਆਨ ਦਾ ਇਤਹਾਸ
- ਰਸਾਇਣ ਵਿਗਿਆਨ ਦੇ ਨੋਬਲ ਇਨਾਮ
- ਰਸਾਇਣਿਕ ਤੱਤਾਂ ਦੀ ਖੋਜ ਦੀ ਸਮਾਂ-ਸੀਮਾ
[ਸੋਧ] Etymology
ਪੁਰਾਣਾ ਫਰੈਂਚ: alkemie; ਅਰਬ al-kimia: ਤਬਦੀਲੀ ਦੀ ਕਲਾ। ਇਹ ਵੀ ਵੇਖੋ: alchemy
[ਸੋਧ] ਇਹ ਵੀ ਵੇਖੋ
- American Chemical Society
- Chemical engineering
- Chemist and List of chemists
- International Union of Pure and Applied Chemistry
- List of chemistry topics
- List of compounds
- List of important publications in chemistry
- Periodic table
[ਸੋਧ] ਬਾਹਰੀ ਸਬੰਧ
ਨਮੂਨਾ:Wikibooks ਨਮੂਨਾ:Wikibookspar
- Chemical Glossary
- Chemistry Information Database includes basic information and some toxicity
- IUPAC Nomenclature Home Page, see especially the "Gold Book" containing definitions of standard chemical terms
- Experiments videos and photos of the techniques and results
- Material safety data sheets for a variety of chemicals
- Material Safety Data Sheets
[ਸੋਧ] ਹੋਰ ਜਾਣਕਾਰੀ
- Chang, Raymond. Chemistry 6th ed. Boston: James M. Smith, 1998. ISBN 0071152210.
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