MP PAT 2018 Syllabus – Science

(Science) (S)
SCIENCE (Compirising of Physics and Chemistry)

(a) PHYSICS

Unit and dimensions, dimensional analysis, S.I. Units, Motion in two dimensions Cases of uniform velocity and uniform acceleration, General relation among position andvelocity, Uniform circular motion Force and inertia. Newtion’s Laws of motion.Conservation of momentum and energy. Static and kinetic friction. Work energy and power Elastic collisions, Potential energy, gravitational Potential energy and its angular conversion to kinetic energy. Potential energy of a spring. Rigid body rotation and conservation of its momentum. Moment of inertia, theorems of parallel and perpendicular axis. (Moment of inertia of uniform ring, disc, thin rod and cylinder only).

Acceleration due to gravity and its variation, Universal law of gravitation, geostationary satellites, escape velocity.

Hooke’s law, Young’s modulus, shear and bulk modulus, surface energy and surface tension, kinetic theory of gases, gas laws, kinetic energy and temperature.

Specific heats at constant volume and constant pressure. mechanical equivalent of heat, isothermal and adiabatic processes.

Heat conduction in one dimension, convection and radiation, Stefan’s Law and Newton’s law of cooling.

Periodic motion, Simple harmonic motion, Oscillations due to spring, Wave motion, principle of superposition; Progressive and stationary waves, beats and Doppler effect.

Wave nature of light, Interference, Young’s double slit experiment, Velocity of light and Doppler’s effect in light.

Reflection, refraction, total internal reflection, curved mirrors, Lenses, mirror and lens formulae. Dispersion in prism, absorption and emission spectra.

The human eye, defects of vision, magnification and resolving power of telescope and microscope

“e” and “e/m” for an electron, Einstein’s photoelectric equation, photocells.

Bohr model of the atom, Hydrogen spectrum, Composition of nucleus, atomic masses and isotopes, radioactivity, laws of radio active decay, decay constant, half life and mean life, Mass-energy relation, fission. X-Ray: Properties and uses.

Elementray ideas of conductor, semi-conductor and insulator, intrinsic and extrinsic semi conductors, p-n Junction as a rectifier.

Bar magnet, lines of force, torque on a bar magnet due to magnetic field, earth’s magnetic field, tangent galvanometer, vibration maganetometer.

Coulomb’s law of electrostatic, dielectric constant, electric field and potential due to a point charge, dipole, dipole field, Guass’s law in a simple geometrics.

Eectrostatic potential, capacitance, parallel plate and spherical capacitors capacitors in series and parallel, energy of a capacitor.

Electric current, Ohm’s law, Kirchhoffs laws, resistances in series and parallel temperature dependence of resistance. Wheatstone bridge, potentiometer.

Measurement of voltages as currents.

Electric power, heating effects of currents, chemical effects and law of electrolysis thermoelectricity. Biot Savart law. Magnetic fields due to a straight wire circular loop and solenoid.

Force on a moving charge in a magnetic field (Lorentz force), magnetic moment of a current loop, effect of a uniform magnetic field of a current loop, forces between two currents, moving coil, galvanometer, ammeter and voltmeter.

Electromagnetic induction induced emf, Faradays law, Lenz’s law, self and mutual inductance alternating currents, impedence and reactance, growth and decay of current in L-R circuit, elementrary idea if dynamo and transformer.

(B) CHEMISTRY

GENERAL AND PHYSICAL CHEMISTRY

  1. Structure of Atom : Constitution of nucleus : Bohr’s atom model : quantum numbers Aufbau principle, electronic configuration of elements (upto-Kr) : de-Broglie relation, shapes of orbitals.
  2. Chemical Bond: Electrovalent, covalent and coordinate bonds, hybridisation (sp): hydrogen bond: shapes of molecules (VSEPR theory) : bond polarity, resonance, Elements of VBT a MOT.
  3. Solutions: Modes of expressing concentrations of solutions: Types of solutions, Raoults law of colligative properties, non-ideal solution, abnormal molecular weights.
  4. Solid State: Crystal lattices, unit cells, Structure of ionic compunds: close packed structure lonic radii, imperfections (Point defects): Properties of solides.
  5. Nuclear chemistry Radio active radiations: half-life, radioactive decay, group displacement Law structure and properties of nucleus: Nuclear reaction, disintegration series artificial transmutation: isotopes and their uses : Radiocarbondating.
  6. Chemical Equilibrium: Chemical equilibrium, Law of mass action : Kp and Kc : Le Chatelier principle and its applications.
  7. Ionic Equilibria in solutions, Solubility product, common ion effect, theories of acids and base hydrolysis of salts: pH : buffers.
  8. Thermochemistry and Thermodynamics: Energy changes during a chemical reaction: instrinsic energy enthalpy, First Law of thermodynamics: Hess’s law Heats of reactions: Second law of thermodynamics: entropy: free energy; spontaneity of a chemical reaction; free energy change and chemical equlibrium; free energy as energy available for useful work.
  9. Chemical Kinetic: Rate of a reaction, factors affecting the rate, rate constant rate expression, order of reaction, first order rate constant expression and characteristics, Arrhenous equation.
  10. Electrochemistry: Oxidation, Oxidation number and ion-electron methods. Electrolytic conduction. Faraday’s laws; voltaic cell, electrode potentials, electromotive force, Gibb’s energy and cell potentials. Nernest equation, commercial cells, fuel cell, electrochemical theory of corrosion.
  11. Surface chemistry, Colloids and Catalysis; Adsorption, Colloids (types preparation and properties), Emulsions, Micelles, Catalysis: Types and characteristics.

INOGRANIC CHEMISTRY:

  1. Principles of metallurgical operations: Furnaces, ore concentration, extraction, purification metallurgies of Na, Al, Fe, Cu, Ag, Zn and Pb and their properties.
  2. Chemical periodicity: S.p.d. and f-block elements, periodic Table: periodicity : atomic and ionic radii valency. ionization energy, electron affinity electronegativity, metallic character.
  3. Comparative study of elements: Comparative study of the following families of elements: (i) Alkali metals (ii) Alkaline earth metals (iii) Nitrogen family (iv) Oxygen family (v) halogens (vi) Noble gases.
  4. Transition metals: Electronic configuration of 3d-metal ions, oxidation states, other general characteristic properties, Potassium permanganate, potassium dichromate.
  5. Co-ordination compounds: Simple nomenclature, bounding and stability, classification and bonding in organometailics.
  6. Chemical analysis: Chemistry involved is simple inorganic quilitative analysis:calculations based on acid-base titrimetry.

ORGANIC CHEMISTRY:

  1. Calculation of empirical and molecular formula of organic compounds, Nomenclature of organic compounds, common functional groups isomerism Structure and shapes of alkanes, alkanes and benzene.
  2. Preparation properties and uses of alkynes, alkynes, benzene petroleum, cracking octane number, gasoline additives.
  3. Nomenclature, Physical chemical properties, correlation of physical properties with structure properties and uses of heloalkanes, halobenzenes, alcohols and phenols: General ideas of some polyhalogen compounds viiz dicholorothanes, dichloroethers, chloroform, carbon tetrachloride D.D.T. benzene hexachloride.
  4. Nomenclature, methods of preparation, Chemical properties correlations of physical properties with structures and uses of ethers aldehydes, ketones, carboxylic acids and their derivatives, Brief account of the chemistry of Cyanides isocyanides, amines and nitro compounds.
  5. Polymers: Classification: Preparation and uses of common natural and synthetic polymers.
  6. Biomolecules: Classification, Structures and biological importance of carbohydrates amino acids, peptides, proteins and enzymes, nucleic acids and lipids.

MP PAT Syllabus for All Subjects

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