Chapter-wise study plan for NEET 2022

Students will need to concentrate on three themes in the mole concept in physical chemistry: –

  • Measurement of a specific material mixed with another substance is referred to as concentration terms. Any sort of chemical mixture can be utilised, although chemical mixtures are most commonly used in relation to solutions, whereas in a solvent, it refers to the amount of solute dissolved. In terms of concentration, it must be discussed in terms of the mole, molarity, molality, ppm, weight percent, and so on.
  • Stoichiometry and the limiting reagent: This topic appears in practically every physical chemistry textbook. The restricting reagent is the reactant that has used all of its energy in the reaction and hence determines when the response will end. The specific measure of reactant expected to respond with another component can be established using the response stoichiometry. … Determine the synthetic response’s reasonable substance condition.

2.Atomic structure: – There are two major topics in atomic structure that students should concentrate on.

  • Neil Bohr proposed the Bohr model of the molecule in 1915. It appeared as a result of a change in Rutherford’s molecular model. The atomic model of a molecule described by Rutherford highlighted that a core (emphatically charged) is ringed by negatively charged electrons.
    A number or a quantum mechanical model
    Redox reactions: – students will be required to study three topics in depth for redox reactions.
  • The oxidation state includes structures such as the cro5 structure, the CRO6 structure, HPO2, HPO3, and HPO4 in addition to others. As a result, have a clear and general rule of oxidation state and the structure that we investigate in depth in oxidation state.
  • Before discussing an equivalent idea, it’s important to understand how to calculate the N factor. After you’ve completed the N factor calculation, you’ll be able to calculate the term of equivalent marks.
  • This is based on the same notion as redox titration. Students should read O.P.Tandon’s books for a more complete explanation. These are also topics that could be prepared at home.
  • Gaseous state: – The study of the vaporous condition yielded some of the first genuine scientific breakthroughs. Despite the fact that the volume of genuine gas particles is a small portion of the absolute volume of the gas, the volume of real gas particles is a microscopic part of the absolute volume of the gas. Early physicists were able to link boundaries like volume and the quantity of gas particles as a result, leading to the development of the mole concept. As we’ve seen in previous sections, the concept of a substance mole allows us to do quantitative research and leads us to a place where we may regularly handle response stoichiometry and other related topics. In this section, we’ll look at some of the early ideas that led to our current understanding of gases and how they behave. We’ll see how the relationships between tension and volume, volume and temperature, and volume and moles lead to ideal gas laws, and how these fundamental concepts can help us perform quantitative calculations in the gas stage.
  • Gas laws: – this is a group of laws. It contains correlations between gases. The following factors influence behaviour: – The volume of gas involved.
  • The force exerted by a gas on its holder’s dividers.
  • The gas’s absolute temperature.
  • The number of moles of gas (or) the measure of a vaporous substance
  • A gas exerts pressure on the inside walls of its container.
  • The gas’s absolute temperature.
  • The number of moles of gas (or the amount of gaseous material).
  • Graham’s effusion legislation
  • Dalton’s lowest point was p.p.
  • Gas eq. Van Der Waals
  • Thermodynamics

We must adjust the system’s parameter if we wish to change the system’s state. The state of the system will change automatically. The following are the most important things that students should be reminded of.

  • Questions based on formulas about several processes
    Thermodynamics’ first law
    Gibbs energy is a term used to describe the amount of energy
  • Equilibrium of ions

Ionic equilibrium is achieved between the ions in a weak electrolyte solution and the unionised molecules.

The following are some key points to consider:

  • Mixtures’ PH
    Products that are soluble
    Buffering options
  • equilibrium in chemistry

Chemical reactions can sometimes be reversed. They react and produce a product, which then reacts and produces another reaction. This implies that there is both forward and backward reaction. This system is in dynamic equilibrium when the forwards and backward reaction rates are equal. Substance harmony is the state in which both the reactants and items are available in foci that have no further tendency to vary with time, resulting in no noticeable change in the framework’s attributes.

  • Relationship between Kp and KC
    The principle of Le Chatelier
    A qual calculation issue
  • Solid-state

Strong state science, often known as materials science, is the study of the composition, structure, and properties of strong stage materials, particularly, but not exclusively, non-atomic solids.

  • An examination of unit cells
    2D/3D Defects: Close Packing
  • Solutions

a homogeneous mixture of at least two substances in relative quantities that can be differed indefinitely up to the constraint of solvency in particular. Although the term “arrangement” is most commonly associated with the fluid state of problem, arrangements of gases and solids are also possible.

Students should be reminded of important subjects in a solution.

  • The law of Raoult
  • There are both ideal and non-ideal solutions.
  • Complementary qualities

So NEET coaching in Bangalore professionals will cover all of this material in a student-friendly manner with a doubt-clearing session.

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