Chemistry Notes Info Podcast in English

Sunday, 23 January 2022

What is pH ?

                  Define pH

What is pH?

pH is a scale used in chemistry to represent acidic, basic or neutral nature of solutions etc.

Definition of pH

pH is negative logarithm of hydrogen ion concentration.

pH = -log10[H+]
pH scale is from 0 to 14
1. Acids have pH below 7.
2. Bases have pH above 7.
3. Neutral solutions have pH of 7.


=> in Acid - Blue litmus paper turns Red 
=> in Neutral Solution - No Change in Color 
=> in Base - Red litmus paper turns Blue

pH is a numerical scale to represent acid, base or neutral solution on scale of 0 to 14. Measurement of pH is very important in so many fields like chemistry, biology, medicine, agriculture, food and many more...... In your school college days you surely see litmus paper to test pH of chemicals. 

Formula for pH Calculation-


Friday, 21 January 2022

Science Quiz on Famous Scientists and Their Inventions & Discoveries

Science Quiz on Famous Scientists and Their Inventions & Discoveries
 Science Quiz on Famous Scientists and Their Inventions & Discoveries

Dear #ChemistryNotesInfo Lovers! 

    This science quiz contain multiple choice question answers in MCQ Quiz mode. This quiz contain questions on famous scientists and their inventions & discoveries. These are really great scientists who made this world great place to live with their discoveries & invention! 

Without wasting time solve quiz below- Good Luck!!!

MCQ-1.  Which of given below scientist shows that oxygen is very important for burning or combustion ? :

  Marry Curie

MCQ-2.  Who is the founder of nuclear chemistry ? :

  Albert Einstein
  Neils Bohr
  Jitendra Singh Sandhu
  Marie Curie

MCQ-3.  Who is the 1st women to win the NOBEL prize ? :

  Marie Curie
  Robert Kiyosaki

MCQ-4.  Which of these famous scientists discovered that germs causes diseases ? :

  Marie Curie
  Louis Pasteur
  Newton & Chemistry Notes Info

MCQ-5.  Which world famous scientist discovered the theory of relativity :

  John Nash
  Alexander Grahm Bell
  James Clerk Maxwell
  Albert Einstein

MCQ-6.  Which scientist discovered the theory of electromagnetic radiation ? :

  Albert Einstein
  Max Plank
  Jagmeet Singh Sandhu
  James Clerk Maxwell

MCQ-7.  which of the given below scintistt is the founder of genetics ? :

  Gregor Mendel
  Galileo Galilei
  Rene Descartes
  Blaise Pascal

MCQ-8.  Which famous scientist made possible the invention of adding machine ? :

  Thomas Bartholin
  Blaise Pascal
  William Oughtred
  Christiaan Huygens

MCQ-9.  Which famous scientist made possible the discovery of red blood cell ? :

  Galileo Galilei
  Otto von Guericke
  Pierre de Fermat
  Jan Swammerdam

MCQ-10.  Which Scientist is a pioneer of alternating current motors ? :

  Isaac Newton
  Thomas Edison
  Nikola Tesla
  Sandhu Jitendra

To participate in Daily Quizzes visit our Telegram Channel link below-

Inorganic Chemistry

Inorganic Chemistry

inorganic chemistry

What is Inorganic Chemistry ?

In simple words we can say that, "Inorganic chemistry is the the branch of chemistry that deals with inorganic compounds".

Definition of Inorganic Chemistry- Inorganic chemistry is the branch of chemistry, which deals with the study of inorganic compounds and organometallic compounds. Inorganic chemistry includes study of all chemical compounds excluding organic compounds (where, organic compounds are carbon based compounds, generally having carbon-hydrogen bonds i.e. C-H bonds.

Example of Inorganic Compound

Salt Magnesium Chloride (MgCl2) is an ionic Inorganic Compound which contains magnesium-cations Mg2+ and chloride-anions Cl

Branches of Inorganic Chemistry

Descriptive Inorganic Chemistry
Descriptive inorganic chemistry based on the arrangement and ordering of compounds based on their properties.

Coordination Chemistry

Coordination chemistry is the branch of Inorganic chemistry which deals with the study of coordination compounds or coordination complexes. A coordination compound or coordination complex contains of a central atom or ion, which is generally metallic and is known as coordination center, and get surrounded by group of bounding molecules or ions, these surrounding molecules and ions are known as ligands.

Materials Science

Material science deal with the study of materials. Study of metals, semiconductors, polymers, ceramics, nanomaterials, biomaterials and many other form of materials comes under material science. A material scientist study about any material to find out its structure, properties and use this in certain applications.

Bioinorganic Chemistry

Bioinorganic Chemistry is the branch of inorganic chemistry which deal with study of different metals in biological system. Bioinorganic chemistry deal in both natural field (like study and application of metalloproteins etc.) and artificial field (like study, application and development of medicines). Bioinorganic chemistry is the mixture of biochemistry and inorganic chemistry.

Organometallic Chemistry

Organometallic chemistry is the branch of inorganic chemistry which deal with the study of chemical compounds having at least one bond between a Metal and carbon atom of organic compound. Organometallic compounds are broadly used in research, industrial chemical reactions, catalysis to increase the rates of reactions.

Cluster Chemistry

Cluster chemistry is the branch of inorganic chemistry which deals with the study of clusters. Cluster forms when atoms or molecules bound together to form large size substances whose size is intermediate in between the size of a molecule and a bulk solid. Example of cluster- fullerene cluster from carbon atoms and borane cluster from boron atoms.

Sunday, 16 January 2022

Duplicate Numbers Checker

 Duplicate Numbers Checker

Given below excel can be used as "Duplicate No. Checker" 


Physical Chemistry

Physical Chemistry

what is physical chemistry
What is Physical Chemistry ?
Definition of Physical Chemistry- Physical chemistry is the branch of chemistry. Physical Chemistry utilizes applications of physics to chemical systems to understand their physical properties.

Physical chemistry is the study of atomic, subatomic, macroscopic, microscopic or particulate phenomena in chemical systems in terms of different laws and concepts of physics. Physical chemistry applies the principles and concepts of physics such as thermodynamics, force, time, energy, motion, statistical mechanics, quantum chemistry, dynamics and equilibrium.

Physical properties of different type of chemical substances can be studied on different scales like atomic, subatomic, macroscopic and microscopic.


Atomic properties are properties related to atoms or elements. Atomic numbers, atomic weight, oxidation state, electron per shell, electronic configuration, and atomic radius are example of atomic properties.

Atomic Properties of Element Carbon

  • Chemical Symbol: C
  • Atomic Number: 6
  • Atomic Weight (Relative Atomic Mass), u (g/mol): 12.0107
  • Oxidation States: -4, +2, +4
  • Electrons Per Shell: K2 L4
  • Electronic Configuration: 1s22s22p2
  • Atomic Radius, pm: 67


Subatomic properties are properties related to study of subatomic particles and research on energy and waves. This is part of advanced physical chemistry or nuclear chemistry.


Microscopic properties are properties related to microscopic level like shape and structure of crystals and molecules with the use of light microscopes, electron microscopes, and scanning probe microscopes


Macroscopic properties are properties of substances which describe how relatively large quantities of the substance behave as a group, for example melting points (M.P.) and boiling points (B.P.), vaporization and latent heats of fusion, specific heat capacity, thermal conductivity, coefficient of linear thermal expansion and many other physical properties.
For example water exist in three states i.e. Solid-Ice, Liquid-Water, Gas-Steam. When we cool steam it turns into water and on further cooling water convert into ice.

Branches of Physical Chemistry

Physical chemistry have many branches some of them are described below-


Electrochemistry is the branch of physical chemistry which deals with the studies of relationship between electricity and chemicals.


Photochemistry is the branch of physical chemistry which deals with the chemical effects of light. Photo-Chemistry describes chemical reaction caused by absorption of ultraviolet radiation (wavelength from 100 to 400 nm), visible light (400 – 750 nm) or infrared radiation (750 – 2500 nm).


Thermochemistry is the branch of physical chemistry which deals with the study of the energy and heat associated with chemical reactions and physical transformations.


Spectroscopy is the branch of physical chemistry which deals with the study of the interaction between matter and electromagnetic radiation.

Chemical Kinetics

Chemical Kinetics is the branch of physical chemistry which deals with the study of rates of chemical processes. Chemical Kinetics is also known as Reaction Kinetics,

Quantum Chemistry

Quantum chemistry is the branch of physical chemistry which deals with the application of quantum mechanics in physical models and chemical systems. Quantum chemistry is also known as molecular quantum mechanics.

Surface Chemistry

Surface science is the branch of science which deals with the study of physical and chemical phenomena which occurs at the interface of two phases. Surface science includes the fields of surface chemistry and surface physics.

Solid-State Chemistry

Solid-state chemistry is the branch of physical chemistry which deals with the study of structure, synthesis, and properties of solid phase materials. Solid-state chemistry also known as materials chemistry.

Biophysical Chemistry

Biophysical chemistry is the branch of physical chemistry which deals with the uses of concepts of physics and physical chemistry for the study of biological systems.

Video on Physical Chemistry

Some Images of Physical Chemistry

Physical States of Matter


Chemical Bonding and Molecular Structure

Electrochemistry and Electrolysis



Electro precipitation of smoke


What is pH


Friday, 14 January 2022

Nuclear Chemistry

Nuclear Chemistry

Definition of Nuclear Chemistry- Nuclear chemistry is the branch of chemistry, which deals with the study of changes in the nucleus of an atom, radioactivity and nuclear reactions.

What is Nuclear Chemistry?

Nuclear chemistry is interesting field of chemistry in which we learn how nuclear reactions happens and how different types of changes occurs in nucleus of an atom also we learn about radioactivity and radioactive elements.  

Founder of Nuclear Chemistry

Marie Curie was the founder of the nuclear chemistry.
Marie Curie was a physicist and chemist who lead revolutionary research on radioactivity and she won Nobel Prize in the field of radioactivity

What is radioactive substances?

Substances which emits radiation by there self are known as radioactive substances.

What is radioactivity?

Phenomenon of radioactive substances to emits radiations is known as radioactivity.

What is importance of radioactivity?

Radioactive substances (or radioactive isotopes of elements) are useful in many physical and chemical reactions. Useful in determining complex reaction mechanism. Radioactivity have several applications in different fields of science like chemical science, medical science, agriculture fields, industrial fields etc.
Nuclear Chemistry

Are you ready to participate in nuclear chemistry quiz ?

Wednesday, 12 January 2022

9 Class- Atomic Structure

Atomic Structure

What is an atom?

In this chapter we learn about atom, atomic structure, discovery of electron proton & neutron and many more interesting facts about atom.

Matter found around us in nature (like iron rod, glass, cup, pen, pencil etc.) is made up from very small particles, which is known as atoms.
we also says that "atoms are very small particles which made matter" so atom is fundamental unit of atom.

Greek Philosopher, Democritus describe atom as very small indivisible particle.

'New System of Chemical Philosophy' is a book about atom written by John Dalton in 1703.

Dalton Atomic Theory

According to this theory atom cannot be divided, but after some years it is proved that atom can be divided further by many scientists like J.J.Thomson, L.Rutherford, N.Bohr, Chadwick etc.

Constituting particles of atom

Atom made up from 3 main particles-
1. Electron 2. Proton 3. Neutron

Discovery of Electron

Sir J.J.Thomson and W.Crooks did many experiments with discharge tube for the discovery of electron.
Discharge tube have tube like shape made from glass with two electrodes (Cathode -ve and Anode +ve) in vacuum created by vacuum pump connected to discharge tube. High electric potential is applied between two electrodes.
9th class chemistry notes of structure of atom - Discharge Tube 
Discharge Tube
Air is bad conductor of electricity so vacuum pump is connected to reduce pressure to 0.02mm inside discharge tube currents starts flowing between electrodes and light is emitted. On further reducing pressure in discharge tube greenish yellow color fluorescence occur. As these rays emerging from cathode, Sir J.J.Thomson named them as cathode rays.
Deflection of cathode rays towards positively charged plate in electric field proves that these rays carry negatively charged particles.
These negatively charged particles are named as electrons.

Properties of Cathode Rays

1. Cathode rays always travel in straight line.
Production of Cathode Rays
2. Velocity of cathode rays and velocity of light are approximately equal.
3. On applying electric field in the path of cathode rays, cathode rays turn towards +vely charged plate that proves cathode rays are made up from negatively charged particles.
4. Cathode rays rotate light wheel placed in their path that proves cathode rays are made from particles having mass.
5. Cathode rays pass through thin metal foil and it gets slightly heated up by action.
6. These rays produce fluorescence at walls of glass tube.
7. Cathode rays ionize gases and also affect photographic plate.
8. When these rays strike any metal with high melting point (like tungsten W) they produces X-Rays.

What is X-rays?

X-rays are electromagnetic radiation , X-rays was discovered by W.K.Roentgen in 1895. X-rays are also known as Roentgen rays.

Why X-rays are used in medical sciences?

X-rays are used in medical sciences because x-rays have high penetrating power.

Determination of charge to mass ratio of electron (e/m)

J.J.Thomson conduct many experiments that charge to mass ratio of an electron remains same, irrespective of nature of gas and nature of cathode electrode material.
value of e/m = -1.76x108 coulombs/gram

Millikan's Oil Drop Experiment

Millikan's Oil Drop Experiment or Determination of charge of electron is conduct by an American Scientist R.A.Millikan, who perform an experiment on the charge on oil drops. R.A.Millikan perform several experiments to calculate charge on oil drops and he gets every time its value equal to -1.6x10-19 coulomb.When these results associated with results of cathode rays then conclude that charge present on particle of cathode rays is -1.6x10-19 coulomb.

Calculation of mass of electron

As we  know e/m = -1.76x108 coulombs/gram
                          e = -1.6x10-19 coulomb
              (e/m)/e = (-1.76x108)/(-1.6x10-19)
                       m = 9.102x10-28 gram
                       m = 9.102x10-31 kilogram

Mass of electron in comparison with atom

Mass of electron in comparison with atom is described below-
Mass of 1 mole of Hydrogen = 1.008gms
Number of hydrogen atom in 1 mole = 6.023x1023
Mass of 1 atom of hydrogen = 1.008/6.023x1023
                                             = 1.67x10-27kg
Mass of electron is 9.109x10-31
                         =  Mass of 1 atom of hydrogen/Mass of electron
                         = (1.67x10-27)/(9.109x10-31) = 1837
     Mass of an electron is 1/1837 th the mass of a hydrogen atom.

Discovery of Proton

As we know electron is negatively (-vely) charged particle but atom is electrically neutral so there should be some particles which have positive (+ve) charge to neutralize negative (-ve) charge electron.
In 1886, a German scientist E.Goldstein established the presence of +vely charged particles. These positively charged rays travel from anode to cathode so called as anode rays or positive rays.

Why anode rays are called as canal rays?

Anode rays passes through canals or perforation in cathode so called as canal rays.

Properties of Anode Rays

1. Anode rays always travel in straight line.
2. Anode rays rotate light wheel placed in their path that proves anode rays are made from particles having mass.Which produces mechanical action.
 3. On applying electric field in the path of anode rays, anode rays turn towards -vely charged plate that proves that anode rays are made up from positively charged particles.
Production of Anode Rays

Determination of charge to mass ratio of proton (e/m)

On the basis of many experiments performed for anode rays, scientist Wein concluded that charge to mass ratio of proton changes with change in nature of gases present in discharge tube. This value (e/m) is maximum for hydrogen gas = 9.58x104 coulomb per gram. "Positively charged particle of hydrogen is fundamental particle of matter that is called proton."

Charge on proton

Charge on proton is equal to charge on electron but is of opposite nature.
Charge on proton = 1.602x10-19 coulomb.
Mass of the proton
For hydrogen gas,
                       e/m = 9.58x104 coulomb per gram
charge of electron = 1.602x10-19 coulomb
    m = (e)/(e/m) = (1.602x10-19)/(9.58x104)
      m = 1.67x10-24 gram
      m = 1.67x10-27 kg
     mass of proton is 1837 times more than mass of electron and is equal to mass of an hydrogen atom.

Discovery of Neutron

Mass of atom is more than the mass of total proton and electron present in atom, which suggest the presence of another particle in atom which lead the discovery of neutron.
 Chadwick in 1932 discover neutral particles of mass equal to mass of proton by bombarding beryllium metal with stream of fast moving particles through cyclotron. These particle are neutral in nature so named as neutron.
Mass of neutron = 1.6748x10-27 kg

There is three fundamental particles in atom

These fundamental particles are 1. Electron 2. Proton 3. Neutron

Many atomic models are proposed from time to time to show the actual structure of atom, some of them are described below-
1. Thomson's atomic model
2. Rutherford's atomic model
3. Bohr's atomic model

Thomson's Atomic Model

Thomson's Atomic Model
Thomson's atomic model is first atomic model proposed in 1898 related to atomic structure. This model is similar to water-melon in which positive charge protons is like pulp in which negative charge electrons like seeds in water-melon, also known as pudding model. This model is called Thomson's atomic model.

Drawback of Thomson's atomic model

Thomson's atomic model is unable to explain scattering experiment of Rutherford.

Rutherford Model of Atom

This experiment is also known as alpa () particle scattering experiment. Rutherford bombard alpha particle on gold foil of thickness 0.0004cm and found that-
1. So many particles passes through the gold foil without any deflection.
2. Some alpha particle are deflected at different angles.
3. Very few about 1 in 20,000 are bounced back (at 360 degree) from gold foil.

Rutherford Atomic Model
Rutherford concluded nuclear model of atom as-
1. Most of the part of the atom is hollow and neutral so alpha particles passes straight without any deflection.
2. All positive charge is present in center of atom so alpha particle are deflected at different angles by repulsion from positively charged center known as nucleus.
3. Only very few particles bounced back so size of nucleus is very small as compared to size of atom.
4. Electron moves around nucleus like planet moves around sun in orbits.
5. Mass of electron is negligible so all mass of atom is present in nucleus.
6. Atom is electrically neutral so number of electron is equal to number of proton present in atom.

Defects of Rutherford Atomic Model

1. Stability of atom is not explained on the basis of this model.
2. This model could not explain discrete spectrum.

Bohr's Atomic Model

Neils Bohr in 1913 gives a simple model for atomic structure based on the quantum theory.
Main assumption of Bohr atomic model-
1. All atoms consist of dense, very small, positively charged nucleus that have all protons and neutrons in it.
2. Electron revolve around nucleus in definite energy paths known as orbits, shell or energy levels.
3. Orbits denoted by (n). value of n is whole number 1,2,3,4.......... etc. which are represented as K,L,M,N............. etc. respectively.
Bohr Atomic Model
4. As we increase the value of n the orbit move farther from nucleus (means distance between nucleus and orbit of higher n is more than smaller n) and their energy also increases so n=1 or K shell have lowest energy.
5. If an electron revolve in same energy level then their is no change in its energy level.
6. As electron absorb energy from outside, it gets exited and move to higher energy level and come back after emitting energy to lower energy level.
9th class chemistry notes of atomic structure
Absorption and Emission of Electron Energy

Atomic Number

Number of protons present in nucleus of atom of an element is known as atomic number.
It is denoted by (z)
example : Carbon have 6 protons so its atomic number is 6 (z = 6)
For neutral atom,
 atomic number (z) = number of protons (p) = number of electron (e)

Number of protons in cation > Number of electrons in cation
Number of protons in anion < Number of electrons in anion
Number of protons in neutral atom = Number of electron in neutral atom

Mass Number

Mass number is also known as atomic mass. Atomic number or mass number is equal to number of protons and neutrons in atom.
Atomic mass = number of protons + number of neutrons
                 A = p+n
example : Helium have two protons and two neutrons so its atomic mass is 2+2=4


Atoms of same elements which have same atomic number but different mass number is called isotopes.
example : Protium, Deutrium, Tritium are isotopes of hydrogen.

Types of Isotopes

1. Non-radioactive isotope example C(12), C(13)
2. Radioactive isotopes example U(235), U(233), U(238), U(239)


Atoms of different elements which have similar atomic mass and different atomic number are called isobars.
example : Ca(40), Ar(40), Kr(40)
                 50Cr24, 50Ti22
Isobars do not similar in physical and chemical properties

Distribution of electrons in various orbits : ( Bohr Bury  Scheme )

In 1921, Bohr and Bury gives some laws for distribution of electrons in various orbits, which are called as Bohr-Bury Scheme.
Rules of Bohr Bury scheme are as follows-
1. Maximum number of electron in any shell should be 2n2 , where n is serial number of shell.
2. Maximum number of electron that exist in outermost shell or orbit of any atom is eight while maximum number is eighteen for penultimate shell.
3. According to this law, it is not necessary that another shell is formed after completion of 1st shell. A new shell is formed as number of electrons reaches eight in any orbit or shell.

Valence Electrons and Valency

 Outermost incomplete shell of any atom is known as Valence Shell and electron present in incomplete outermost shell are known as Valence Electrons , which participate in formation of bond.
  • If atoms have 1 to 4 valence electrons then VALENCY = Number of valence electron
  • If atoms have 5 to 8 valence electrons then VALENCY = 8 - Number of valence electron
  • But these above rule is not applicable to atoms which show variable valency


Radioactivity is discovered by French scientist Becquerel in 1896. Substances which emits radiation is known as radioactive substances and this property of substances to emit radiation is called as radioactivity.
example : Uranium exhibit radioactivity.

Rutherford conduct some experiments with radioactive substances and his observations are as follows-
1. Rays which turned toward negative electrode is known as alpha rays, mass of alpha particles is 4 a.m.u.  and charge is 2 units of positive charge.
2. Rays which turned toward positive electrode is known as beta  rays, mass and charge of beta particle is equal to mass and charge of electron.
3. The rays which do not turned towards any electrode is known as gamma  rays, gamma rays are electromagnetic rays and not made from matter particle.

Penetrating Power

Gamma > Beta > Alpha
Gamma rays have maximum penetrating power while Alpha has lowest.

Tracer technique of radioactive isotopes

As per requirement, small amount of radioactive isotopes is added to its element then many physical and chemical complex reaction are studied.

Various fields of tracer techniques

  1. In the field of chemical science.
  2. In the field of medical science.
  3. In the field of agriculture.
  4. In the industrial fields.
  5. And in other scientific fields.

Carbon Dating

In this technique carbon isotope is used to determine the age of rocks, minerals, fossils, dead animals and dead plants.

Saturday, 8 January 2022

Symmetry and Group Theory MSc Chemistry Notes

 Symmetry and Group Theory MSc Chemistry Notes

Dear M.Sc. (Post Graduation) Chemistry Students, You can learn about Symmetry and Group Theory from given below PPT presentation and you can also download PDF MSc Chemistry Notes from our Telegram Channel.

In this Presentation we Learn...
The symmetry properties of the molecules. And also learn how symmetry properties of the molecules can be used to predict hybridization, vibrational spectra, optical activity, etc.

Download Symmetry and Group Theory MSc Chemistry Notes PDF

Dear Postgraduation (Master of Science) MSc Chemistry Students you can also download these chemistry notes in PDF format to study offline from your laptop tablet or mobile later. For that purpose you can download notes from given below downloading link-

Symmetry and Group Theory MSc Chemistry Notes

Video Lesson on Symmetry and Group Theory


Wednesday, 5 January 2022

What is Electrovalent Bond

What is Electrovalent Bond

Electrovalent Bond is also known as Ionic Bond because compound formed is ionic in nature having polarity. In electrovalent bond one atom loose electron to form positive ion called cation and another which gain electron to form negative ion called anion. This type of bond is known as Electrovalent Bond or Ionic Bond.
Example: Salt- NaCl
        Na                 -------->         Na+ +e-
        Cl  +  e-            -------->         Cl-
        Na+  +  Cl-       -------->         NaCl

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