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#1 ratika89g Super Moderator Join Date: May 2011 Posts: 325 Hi

Looking for the syllabus of APSC assistant controller of legal Metrology.. Please tell me from where can i get it?

Regards

SYLLABUS

GENERAL STUDIES AND MENTAL ABILITY

1. General Science – Contemporary developments in Science and Technology and their implications
including matters of every day observation and experience, as may be expected of a well-educated
person who has not made a special study of any scientific discipline.

2. Current events of national and international importance.

3. History of India – emphasis will be on broad general understanding of the subject in its social,
economic, cultural and political aspects with a focus on AP Indian National Movement.
4. World Geography and Geography of India with a focus on AP.
5. Indian polity and Economy – including the country’s political system- rural development – Planning
and economic reforms in India.
6. Mental ability – reasoning and inferences.

PHYSICS

1. Mechanics and Relativeity:
Newtons laws of motion, force and potential energy, conservative force. Conservation
laws – collisions – impact parameter, scattering cross-section Laboratory and Centre of mass
reference frames. Transformations between them. Rutherford scatterering. Motion of a rocket.
Rigid body dynamics – Moment of inertia of simple regular bodies, rotating frames of reference –
coriolis force. Angular momentum, torque, precession of a top, gyroscope. Central forces –
motion under inverse square law – gravitational force, Kepler’s laws. Motion of satellites. Motion
of fluids – streamline and turbulent flow. Bernoulli’s equation with simple applications – Reynolds
number.
Galelean relativity, special theory of relativity – Time duration and length contraction
Michelson – Morley experiment, Lorentz transformations, addition of velocities, variation of mass
with velocity – mass energy equivalence.

2. Waves and Oscillations:
Oscillations, Simple harmonic motion, progressive and stationary waves. Damped
harmonic Oscillator, Forced oscillations and resonance. Wave equation, harmonic solutions.
Plane and spherical waves, superposition of waves and beats, phase velocity, group velocity,
Doppler effect.

3. Thermal Physics:
Laws of thermodynamics, carnot’s cycle. Isothermal and adiabatic processes.
Thermodynamic potentials, Maxwells relations. Claussius – clapeyrons equation joule – Thomson
effect. Kinetic theory of gases. Maxwell’s velocity distribution, equipartion theorem, specific heat
of gases. Mean free path. Brownian motion, specific heat of solids – Einstein and
Debye’stheories. Black body radiation Wien’s, Rayleigh-jeans and plancks laws. Solar constant,
Sahas theory of thermal ionization – stellar spectra, production of low temperature – adiabatic
demagnetization – negative temperature. Vander waals equation, critical constants.

4. Optics:
Huygens principle interference, young’s experiment interference in thin films, Newton’s
rings. Michelson’s interferometer. Diffraction – Fresnel and Fraunhoffer diffraction. Diffraction by
straight edge, circular and rectangular apperture, single and double slits, plane grating,
Dispersive power Resolving power, Rayleighs criterion. X-ray diffraction and Bragg’s law.
Polarisation – Plane, Polarisation by reflection, circular, elleptic polarisation, double refraction,
Nicol prism, quarter and half wave plates. Laser principle – spontaneous and stimulated emission
of Radiation. He-Ne, Ruby and semiconductor diode lasers. Coherence. Diffraction as Fourier
transformation. Holography and applications.

5. Electricity and Magnetism:
Coulomb’s Law, Electric field, Gauss’s Law, electric potential. Poissons and Laplace
equations and solutions for homogeneous dielectric, uncharged conducting sphere in a uniform
field, point charge and infinite conducting plane. Magnetic shell, magnetic induction and field
strength Biot savarts law and applications. Electromagnetic induction, Faradays and Lenz’s laws.
Self and mutual inductance, induction coil and transformer.
Alternating currents L-R, C-R, L-C-R circuits. Series and parallel resonance, Q-factor.
Electromagnetic waves – Maxwells equations. Transverse nature of e-m waves, pointing vector.
Magnetic materials – Dia, para, ferro, antiferro and ferri magnetism (Qualitative features
only). Langevin’s theory of paramagnetism, Weiss theory of ferromagnetism. Ferro magnetic
Domains Hysterisis, Nuclear magnetism. Dielectric materials – Capacitative with dielectric
material as medium; electric polarisation; electronic, ionic, electric polarisabilities and their
variations with temperature.

6. Modern Physics:
Bohr’s model, sommerfeld extension. Explanation of atomic spectra. Stern-Gerlach
experiment, space quantization, electron spin, vector atom model, spectral terms, fine structure
of spectral lines. J-J and L-S coupling schemes. Pauli’s exclusion principle, spectral terms of two
equivalent and non-euqivalent electorns, Zeeman, Paschenback effects, Stark effect.
Characteristic X-rays, Moseley’s Law. Gross and fine structure of Band spectra, Raman effect.
Black body radiation, Wien, Rayleigh Jeans and Planck’s Laws of radiation. Photo
electric effect and Einstein’s Explanation, Compton effect, de Broglie hypothesis. Wave-particle
duality, uncertainity principle, Schrodinger equation, eigen functions and eigen values. Physical
meaning of eigen function, Solution of Schoedinger equation for 1) particle in a box 2) potential
step 3) harmonic oscillator 4) hydrogen atom.
Radioactivity – alpha, beta and gamma rays, Gammow’s theory of alpha decay. Laws of
of Neutron. Mass spectrometers. Nuclear binding energy, semi-emperical mass formula.
Nuclear fission, nuclear reactors. Nuclear fusion, fusion cycles. Elementary particles and their
classification. Strong, Weak and elector-magnetic interactions. Particle accelerators – Cyclotron
and linear accelerators. Basic experimental ideas of superconductivity.

7. Electronics:
Band theory of solids – Conductors, insulators and semi conductors. Intrinsic and extrinsic
semi conductors; p-n junction diode, forward and reverse bias. Diode as a rectifier. Transistor –
different configurations of transistor, Transister parameter amplifier. Transistor oscillator.
Modulation and detection. Transistor receiver. Basic principle of television. Digital principles –
Logic gates – AND, OR NOT, XOR gates – truth tables.

MATHEMATICS

Algebra:
Groups – subgroups – normal subgroups – quotient groups – homomorphism and
isomorphism theorems – cyclic groups – permutation groups – Cayleay’s theorem.
Rings – subrings – integral domain – fields – ideals quotient ring – maximal and prime
ideals – Euclidean rings – polynomial rings – Unique factorization domains – principal ideal
domains.

Linear Algebra:
Vector spaces – subspaces – linear independence and dependence – Bases and
dimension – Finite – dimensional vector spaces and their properties.
Linear transformations – Rank and nullity of a linear transformation – Cayley – Hamilton
theorem – Matrix of a linear transformation – eigen values and eigen vectors – Canonical forms.
Inner product spaces – Orthonormal basis – Quadratic forms.

Differential equations:
Order and degree of a differential equation – Formation of a differential equation –
Differential equations of first order and first degree – Linear differential equations with constant
and variable coefficients – Total differential equations.
Formation of partial differential equations – Equations of first order – Charpit’s methods.

Geometry:
General equation of second degree in two variables – Tracing of conics.
Plane, straight lines in space – sphere – Cone.
Curves in space – curvature – Torsion – Seret – Frenet formulae.

Real Analysis:
Real number system R – Open and closed sets in R- Compact sets – sequences in R and
their convergence – Series of real numbers – Tests of convergence – absolute and conditional
convergence – rearrangements of series.
Limits and continuity of a real valued function properties of continuous functions –
Differentiation – Mean value theorems – Applications.
Riemann integration – conditions for Reimann integrability – improper integrals.

Complex Analysis:
Complex numbers and their geometric representation – limits and continuity of functions
of a Complex variable – Analytic functions – Couchy Riemann equations – Complex integration –
Canchy’s theorem – Canchy’s integral formula – Power series – Taylor’s and Laurent’s series –
Types of singularities – Calculus of residues and application to evaluation of definite integrals.

Vector calculus:
Differentiation of a vector valued function – Gradient of a scalar function – Divergence
and curl of a vector function in Cartesian and polar coordinates.
Green’s theorem – Gauss and Stoke’s theorems and their applications to evaluation of
double and triple integrals.
a) Transform Calculus: Laplace Transforms – Inverse Laplace transforms – solving
differential equations using Laplace transforms.
Fourier and Hankel transforms.
b) Numerical Analysis: transcendental and Polynomial equations – Regula Falsi method
– Newton Raphson method Interpolation – numerical differentiation – numerical
intergration – Runga Kutta method.
c) Number Theory: Fundamental theorem of arithmetic – congruences and their
applications – Fermat’s and Wilson’s theorems – solution of linear congruences –
Chinese remainder theorem.
d) Linear Programming: Formation of linear programming problem – Graphical solution
– Dual problem – simplex method – Transportation problem

Last edited by Aakashd; May 28th, 2019 at 10:28 AM.
 Other Discussions related to this topic Thread

#2
 Unregistered Guest Posts: n/a Re: General Studies and Mental Ability APPSC Syllabus

Current Events : national and international both
General Science:
Geography: World and India particularly emphasis on Andhra Pradesh
Indian Economy and Politics : Keeping Indian System in Mind
History of India : social, economic, cultural and political aspects special focus on AP
Mental ability – reasoning and inferences.

#3
 Amit Shukla Guest Posts: n/a Physics Syllabus of APPSC Asst Controller Legal Metrology

(Mechanics and relativity, Waves and Oscillations, Thermal Physics, Optics)
conservative force. Conservation laws - collisions - impact parameter
force and potential energy
gyroscope. Central forces - motion under inverse square law - gravitational force
Kepler's laws. Motion of satellites. Motion of fluids - streamline and turbulent flow. Bernoulli's equation with simple applications - Reynolds number.
Newtons laws of motion
precession of a top
rotating frames of reference - coriolis force. Angular momentum
scattering cross-section Laboratory and Centre of mass reference frames. Transformations between them. Rutherford scatterering. Motion of a rocket. Rigid body dynamics - Moment of inertia of simple regular bodies
torque

Galelean relativity, special theory of relativity
Lorentz transformations
Time duration and length contraction Michelson - Morley experiment
variation of mass with velocity - mass energy equivalence.

Oscillations, Simple harmonic motion, progressive and stationary waves.
carnot's cycle. Isothermal and adiabatic processes. Thermodynamic potentials
critical constants.
Damped harmonic Oscillator
Doppler effect.Laws of thermodynamics
equipartion theorem
Forced oscillations and resonance. Wave equation
group velocity
harmonic solutions. Plane and spherical waves
Maxwells relations. Claussius - clapeyrons equation joule - Thomson effect. Kinetic theory of gases. Maxwell's velocity distribution
phase velocity
production of low temperature - adiabatic demagnetization - negative temperature. Vander waals equation
Rayleigh-jeans and plancks laws. Solar constant
Sahas theory of thermal ionization - stellar spectra
specific heat of gases. Mean free path. Brownian motion
specific heat of solids - Einstein and Debye'stheories. Black body radiation Wien's
superposition of waves and beats

circular
circular and rectangular apperture
Dispersive power Resolving power
double refraction
elleptic polarisation
Huygens principle interference
Newton's rings. Michelson's interferometer. Diffraction - Fresnel and Fraunhoffer diffraction. Diffraction by straight edge
Nicol prism
plane grating
Polarisation by reflection
quarter and half wave plates. Laser principle - spontaneous and stimulated emission of Radiation. He-Ne
Rayleighs criterion. X-ray diffraction and Bragg's law. Polarisation - Plane
Ruby and semiconductor diode lasers. Coherence. Diffraction as Fourier transformation. Holography and applications.
single and double slits
young's experiment interference in thin films

(Electricity & Magnetism, Modern Physics and Electornics)
Coulomb's Law
Electric field
electric potential. Poissons and Laplace equations and solutions for homogeneous dielectric
Faradays and Lenz's laws. Self and mutual inductance
Gauss's Law
induction coil and transformer.
magnetic induction and field strength Biot savarts law and applications. Electromagnetic induction
point charge and infinite conducting plane. Magnetic shell
uncharged conducting sphere in a uniform field

Alternating currents L-R
antiferro and ferri magnetism (Qualitative features only). Langevin's theory of paramagnetism
C-R
electric polarisabilities and their variations with temperature.
ferro
ionic
L-C-R circuits. Series and parallel resonance
Nuclear magnetism. Dielectric materials - Capacitative with dielectric material as medium; electric polarisation; electronic
para
pointing vector. Magnetic materials - Dia
Q-factor. Electromagnetic waves - Maxwells equations. Transverse nature of e-m waves
Weiss theory of ferromagnetism. Ferro magnetic Domains Hysterisis

Bohr's model
electron spin
fine structure of spectral lines. J-J and L-S coupling schemes. Pauli's exclusion principle
Moseley's Law. Gross and fine structure of Band spectra
Paschenback effects
Raman effect.
sommerfeld extension. Explanation of atomic spectra. Stern-Gerlach experiment
space quantization
spectral terms
spectral terms of two equivalent and non-euqivalent electorns
Stark effect. Characteristic X-rays
vector atom model
Zeeman

Compton effect
de Broglie hypothesis. Wave-particle duality
eigen functions and eigen values. Physical meaning of eigen function
Rayleigh Jeans and Planck's Laws of radiation. Photo electric effect and Einstein's Explanation
Schrodinger equation
Solution of Schoedinger equation for 1) particle in a box 2) potential step 3) harmonic oscillator 4) hydrogen atom.
uncertainity principle
Wien

alpha
beta and gamma rays
discovery of Neutron. Mass spectrometers. Nuclear binding energy
fusion cycles. Elementary particles and their classification. Strong
nuclear reactors. Nuclear fusion
semi-emperical mass formula. Nuclear fission
Weak and elector-magnetic interactions. Particle accelerators - Cyclotron and linear accelerators. Basic experimental ideas of superconductivity.

Band theory of solids
Conductors
forward and reverse bias. Diode as a rectifier. Transistor - different configurations of transistor
insulators and semi conductors. Intrinsic and extrinsic semi conductors; p-n junction diode
OR NOT
Transister parameter amplifier. Transistor oscillator. Modulation and detection. Transistor receiver. Basic principle of television. Digital principles - Logic gates - AND
XOR gates - truth tables. Reply to this Question / Ask Another Question

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