SSC Scientific Assistant IMD Syllabus 2024 & Exam Pattern

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SSC Scientific Assistant IMD Syllabus 2024 & Exam Pattern: Applied SSC Scientific Assistant India Meteorological Department Examination 2024 and in search of the SSC IMD Scientific Assistant Syllabus & Exam Pattern? then you can get the updated information here. The officials of the Staff Selection Commission are going to conduct a CBT test for the Scientific Assistant Post. And the SSC Scientific Assistant IMD Exam will be having 2 papers. Paper 1 & Paper 2 are having 100 questions each with a time duration of 120 Minutes. To download the SSC IMD Scientific Assistant Syllabus 2024 go through the below-provided link.

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SSC Scientific Assistant IMD Syllabus 2024

The candidates will be required to attempt both Part-I and Part-II of the examination. Part II of the examination will be on the basis of the subject opted in the online application form. In other words, the candidates opting for Physics will be required to check SSC Scientific Assistant IMD Syllabus 2024 for the Physics paper, the candidates opting for Computer Science & IT will be required to attempt Computer Science & IT paper and the candidates opting for Electronics & Telecommunication Engineering will be required to attempt Electronics & Telecommunication Engineering paper in Part-II, failing which their candidature will be rejected.

SSC Scientific Assistant IMD Syllabus 2024 – Details

SSC Scientific Assistant IMD Syllabus
Organization Name Staff Selection Commission
Post Name Scientific Assistant
Exam Name India Meteorological Department Examination 2024
Category Syllabus
Selection Process Computer Based Examination
Job Location Across India
Official Site ssc.nic.in

SSC Scientific Assistant IMD Exam Pattern 2024

The examination will consist of Objective Type, Multiple choice questions only. The questions will be set both in English & Hindi except for questions on English Language & comprehension. There will be a negative marking of 0.25 marks for each wrong answer in the examination. Candidates are, therefore, advised to keep this in mind while answering the questions.

Part  Subject  No. Of Questions  Duration and Timings 
Paper I Reasoning 25 120 Minutes
Quantitative Aptitude 25
English Language and Comprehension 25
General Awareness 25
Part II Physics, Computer Science and Information Technology, Electronics, and Telecommunication 100

Download SSC IMD Scientific Assistant Exam Syllabus 2024

Indicative Syllabus (Part-I)

General Intelligence & Reasoning: The Syllabus for General Intelligence would include questions of both verbal and non-verbal type. The test may include questions on analogies, similarities, differences, space visualization, problem solving, analysis, judgement, decision making, visual memory, discrimination, observation, relationship concepts, arithmetical reasoning, verbal and figure classification, arithmetical number series etc. The test will also include questions designed to test the candidate’s abilities to deal with abstract ideas and symbols and their relationships, arithmetical computations and other analytical functions.

General Awareness: General, physical, geographical, topographical, economic and climatic features of India. Current events. Matters of everyday observation and experience on scientific aspects and reasoning. Basic topics of Mathematics, Chemistry and Physics. History of India, its cultural heritage, freedom movement, salient feature of the Constitution of India. Economic and social aspect of the country and its people.

Quantitative Aptitude: The questions will be designed to test the ability of appropriate use of numbers and number sense of the candidate. The scope of the test will be computation of whole numbers, decimals, fractions and relationships between numbers, Percentage, Ratio & Proportion, Square roots, Averages, interest, Profit and Loss, Discount, Partnership Business, Mixture and Alligation, Time and Distance, Time & Work, Basic algebraic identities of School Algebra & Elementary Surds, Graphs of Linear Equations, Triangle and its various kinds of center, Congruence and similarity of triangles, Circle and its chords, tangents, angles subtended by chords of a circle, common tangents to two or more circles, Triangle, Quadrilaterals, Regular Polygons, Circle, Right Prism, Right Circular Cone, Right Circular Cylinder, Sphere, Hemispheres, Rectangular Parallelepiped, Regular Right Pyramid with triangular or square base, Trigonometric ratio, Degree and Radian Measures, Standard Identities, Complementary angle, Heights and Distances, Histogram, Frequency polygon, Bar diagram & Pie chart.

English Language and Comprehension: English grammar, Vocabulary, Spellings, Synonyms and Antonyms, Comprehension, Correct and incorrect usages, etc.

Indicative Syllabus (Part-II)

Physics

  • Mechanics: Units and dimensions, SI Units, Newton’s Laws of Motion, conservation of linear and angular momentum, projectiles, rotational motion, moment of inertia, rolling motion, Newton’s Law of gravitation, Planetary motion, Kepler’s Laws of Planetary motion, artificial satellites, Fluid motion, Bernoulli’s theorem, Surface tension, Viscosity, Elastic Constants, bending of beams, torsion of cylindrical bodies, elementary ideas of special theory of relativity.
  • Thermal Physics, Radiation & Sound: Equations of state, Ideal and real gases, Dalton’s law of partial pressure. Thermometry, Zeroth, first and second laws of thermodynamics, reversible and irreversible processes, Heat engines, Maxwell’s relation, Heat Capacities, Adiabatic and Isothermal processes, Clausius-Clapeyron relation, Thermal Conductivity, Thermodynamic state variables, viz., Internal energy, Entropy, Enthalpy, Helmholtz’s free energy function, Gibb’s free energy function. Vapour pressure, evaporation. Kinetic theory of gases, Brownian motion, Maxwell’s velocity distribution, Equipartition of energy, mean free path Vander walls’ equation of State, Liquefaction of gases. Blackbody radiation, Kirchhoff’s law, Stephen’s law, Planck’s law. Conduction in solids.
  • Wave and Oscillations: Simple harmonic motion, wave motion, superposition principle, Damped oscillations; forced oscillations and resonance; simple oscillatory systems; vibrations of rods, strings and air columns. Doppler effect; Ultrasonic; Sabine’s law of reverberation; Recording and reproduction of sound.
  • Optics: Nature and propagation of light; Reflection & Refraction. Interference; diffraction; polarization of light; simple interferometers. Determination of wavelength of spectral lines, Electromagnetic spectrum. Rayleigh scattering, Raman effect, Lenses and mirrors, combination of coaxial thin lenses, spherical and chromatic aberrations, and their corrections, Microscope, Telescope, Eyepieces and Photometry.
  • Electricity and magnetism: Electric charges, fields and potentials, Gauss’s theorem, Electrometers, Dielectrics, Magnetic properties of matter and their measurement, Elementary theory of dia, para and ferro-magnetism, Hysteresis, Electric current and their properties, Ohm’s law, Galvanometers, Whetstone’s bridge and applications, Potentiometers, Faraday’s law of E.M. induction, self and mutual inductance and their applications, alternating currents, impedance and resonance, LCR circuit, Dynamos, motors, transformers, Peltier- Seebeck and Thomson effects and applications, electrolysis, Hall effect, Hertz experiment and electro-magnetic waves, Particle accelerators and cyclotron.
  • Atomic structure: Electron, measurement of ‘e’ and ‘e/m’, measurement of Planck Constant, Rutherford-Bohr Atom, X-rays, Bragg’s law, Moseley’s law, Radioactivity, Alpha-Beta-Gamma emission, Elementary ideas of nuclear structures, Fission, Fusion and Reactors, Louis de Broglie waves and Electron Microscope.
  • Electronics: Thermo-ionic emission, diodes and triodes, p-n diodes and transistors, simple rectifier, amplifier and oscillator circuits.
  • Calculus: Limits, Differential calculus (Differentiation), Integral calculus (Integration), Multivariable calculus (Function theory), basic concepts of differential equation, viz., types, order, degree of differential equations. Concept of Laplacian of a function.
  • Linear algebra: Concept of a Vector Space, Basic concepts of linearly dependent/ independent vectors. Matrix and determinant. Concepts of Eigen Value and Eigen Vectors.
  • Vector Algebra & calculus: Zero Vector, Unit Vector, Position Vector, Co-initial Vector, Like and Unlike Vectors, Co-planar Vector, Collinear Vector, Equal Vector, Displacement Vector, Negative of a Vector, Vector and Scalar Quantities, Vector Formulas, Components of a Vector, Vector Addition and its Laws, Multiplication of Vectors and Scalar Quantity, Vector Algebra, Dot Product of Two Vectors, Scalar Triple Product. Basic concepts of Vector calculus, viz., Grads, Divergence, Curl, Stokes theorem, Gauss divergence theorem.

Computer Science and Information Technology

  • Computer: History of Computers and their classification, Basic Organization, Memory–RAM, ROM, EPROM, etc., Magnetic-Floppy, Hard disks, CDROM, WORM etc., Concept of Virtual Memory and Cache Memory, Number systems, binary, octal, Hexadecimal, Binary
    Addition, Subtraction and Multiplication, Flotation, point representation and arithmetic, Arithmetic through stacks.
  • Operating systems: assemblers, elements of Assembly language programming-Overview of the Assembly process, assembler for the
    PC, Process synchronization, Memory Management – address Binding – dynamic Loading and linking – overlays – logical and Physical address space – Contiguous Allocation – internal & External Fragmentation. Non-Contiguous Allocation: Paging and Segmentation Schemes – Implementation – Hardware Protection – Protection – sharing – Fragmentation.

Virtual Memory: Demand Paging – Page Replacement – Page

Replacement algorithms – Thrashing

  • File System: File Concepts – Assess Methods – Directory Structures – Protection Consistency Semantics – File system Structures – Allocation Methods – Free Space Management.
  • I/O System: Overview – I/O hardware – Application I/O Interface – Kernel I/O subsystem, Performance, Secondary Storage Structures,
    Protection, Goals, Domain – Access matrix. Assemblers: Elements of assembly language programming – Overview of the Assembly process – Design of a low-pass Assembler – a single pass Assembler for the PC. The security Problem – Authentication –Threats – Threat Monitoring – Encryption.
  • Fundamentals of programming: Unix Programming, Programming in FORTRAN, C, Object Oriented Programming in C++, programming
    in Java, Basics of compilers. Database Management Systems: Advantages and components of a Database Management Systems, Data Types, Data Dictionary, Query Basics, Forms and Reports, Graphical objects, Error Handing, Distributing Application, Data Storage Methods, Data Clustering and Partitioning, Database Administration, Backup and Recovery, Security and Privacy, Distributed Databases, Client/Server Databases, Object Oriented Databases, Integrated Applications, SQL, RDBMS.
  • Internet Technology: Basics, topologies, layers, switching in the networks, bridges, routers and gateways, types of networks, WWW.
    Client/Server Applications, Internet Standards and specifications, ISP, Broad Band Technologies, Protocols, web-servers, browsers, and security, fire walls, data security, HTML, dHTML, XML, Web designing.
  • Fundamentals of Geographical Information System (GIS): GIS Data and Spatial Models, Topology and Spatial Operations, Projections,
    Scale and Coordinate Systems, Mapping, GIS Analysis, Cartography. Basics of GIS application development.

Electronics & Telecommunication

  • Electronics: Conductors, Semi-conductors, Insulators, Magnetic, Passive components, characteristics of Resistors, Capacitors and inductors.PN Junction diode, forward and reverse bias characteristics and equivalent circuits of diode, Zener diode and applications, clipping, clamping and rectifier circuits using diodes.
  • Bipolar Junction Transistors (BJT), Field Effect Transistor (FET) and MOSFET; Biasing and stability, Emitter follower and its applications – Negatives Feedback-Transistor as a switch, Multistage Amplifiers, Feedback, Oscillators, Multi vibrators, Voltage regulation, Power amplifiers.
  • Introduction to Network Theorems: Kirchoff’s laws, superposition, Thevenin’s , Norton’s and Maximum power theorems. Voltage and Current relationship in the resistance, inductance and capacitance. Concept of reactance, susceptance, conductance, impedance and admittance in series and parallel RL, RC and RLC circuits – Three phase supply-star and delta connection diagrams – Relation between line and phase & voltages and currents, series and parallel resonance circuits – condition of resonance, resonant frequency, Q factor and bandwidth. Digital electronics:–Logic gates, Demorgan’s theorem, Boolean algebra, frequency counters, flip-flops, shift resistors, Basic concepts of Digital to Analog and Analog to Digital Converters, Timing circuits, Digital logic circuits, systems & codes Combinational logic design.
  • Telecommunication: Basic antenna principle directive gain, directivity, radiation pattern, broad-side and end-fire array, Yagi antenna, Parabolic antenna, Ground wave propagation, space waves, ionosphere propagation and electromagnetic frequency spectrum, Modulation, types of modulation, Amplitude Modulation (AM), Modulation index, Power relation in AM, Generation and Demodulation of AM.
  • Single Side Band (SSB): Power requirement in comparison with AM, Advantages of SSB over AM. Concept of Balanced Modulator,
    Generation of SSB, Pilot Carrier System. Independent Side System, Vestigial Sideband Transmission.
  • Frequency Modulation (FM): Definition of FM, Bandwidth, Noise triangle, Pre-emphasis and De-emphasis.
  • Pulse Modulation (PM): Definition of PM. Difference between AM and FM. Radio receivers. Sampling Theorem, PAM, PTM, PWM,
    PPM, pulse code modulation, Quantization noise, commanding, PCM system, differential PCM, Delta modulation.
  • Multiplexing: FDM/TDM., Introduction of digital Communication: PSK, ASK, FSK, introduction to fiber optics system, Propagation of light in optical fiber and ray model.Propagation of signals at HF, VHF, UHF and microwave frequency and satellite communications.
You can also check
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SSC Scientific Assistant IMD Syllabus 2024 – Frequently Asked Questions

How many negative marks are there for SSC Scientific Assistant Exam?

There will be a negative marking of 0.25 marks for each wrong answer in the examination.

What are the topics asked in the Paper 1 Exam for SSC Scientific Assistant Post?

General Intelligence & Reasoning, Quantitative Aptitude, English language & Comprehension, and General Awareness are the topics asked in SSC Scientific Assistant Paper 1 Exam.