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# GITAM GAT UG Architecture Syllabus 2023 : Gandhi School of Technology

Organisation : Gandhi School of Technology GITAM
Exam Name : GITAM Architecture Admission Test
Announcement : GITAM GAT Architecture Syllabus
Subject : UG Arch Maths, Physics & Chemistry Syllabus
Website : https://gat.gitam.edu

Contents

## What Is GITAM Admission Test?

Gandhi School of Technology and GITAM School of Business, popularly known as GITAM. GAT Application is for admission into UG & PG Programs of Architecture, Engineering, Humanities, Law, Management, Nursing, Paramedical, Pharmacy, Physiotherapy and Sciences offered at GITAM Visakhapatnam, Hyderabad and Bengaluru campuses.

Related / Similar Syllabus : GITAM GAT UG Architecture Syllabus 2023 ## GAT UG Architecture Syllabus

Mathematics
UNIT – 1
Sets, Relations And Functions:
Sets and their representation, Union, Intersection and compliment of sets, and their algebraic properties, power set, Relation, Types of relation, Equivalence relation, Functions, one-one, into and onto functions, composite functions.

UNIT – 2
Mathematical Induction:
Principle of Mathematical Induction and its simple applications. MATHEMATICAL REASONING: Statements, Logical operations and, or, implies, implied by, if and only if. Understanding of tautology, contradiction, Converse and Contra positive.

UNIT – 3
Quadratic Equations & Theory Of Equations:
Quadratic equations in real and complex number system and their solutions. Reminder and Factor Theorems, common Roots, General Quadratic expression, Finding the range of a function, Location of roots, Solving inequalities using location of roots.

Theory Of Equations:
The relation between the roots and coefficients in an equation; Solving the equation when two or more roots of it are connected by certain relations; Equations with real coefficients, imaginary roots occur in conjugate pairs and its consequences; Transformation of equations, Reciprocal equations.

Physics
UNIT – 1
1. Units And Dimensions :
Units for fundamental and derived quantities; Systems of Units; SI system of units – rules for writing unit, derived units, multiple units and sub multiple units in SI system; Measurement for quantitative study, Accuracy and precision of measuring instruments; Errors due to external causes – constant type, systematic type and environmental type; Errors due to imperfections in experimental techniques/procedure/personal/observation – random errors, gross errors, absolute errors, mean absolute error and relative error percentage error;errors due to addition, subtraction, multiplication division and powers of observed quantities; Significant figures, Dimensions of physical quantities, dimensional formulae, applications and limitations of dimensional analysis.

2. Elements Of Vectors:
** Classification of physical quantities as vectors and scalars Geometrical representation of vectors – Addition and subtraction of vectors. Laws of addition of vectors – Equal and null vectors. Unit vectors – Unit vectors in Cartesian co-ordinate system – position vector and its magnitude.
** Parallelogram law of vectors – Expression for the resultant vector. Triangle law and polygon law of vectors – concept of relative velocity- application to relative motion of a boat in a river.

** Multiplication of a vector with a scalar – Scalar product with examples of work and energy – Vector product with examples of torque and angular momentum – Vector and Scalar product of unit vectors.

Chemistry
UNIT – 1
1. Atomic Structure:
** Characteristics of Electron, Proton and Neutron,RutherFord’s model of atom – Nature of electromagnetic theory – Plancks Quantum Theory, Explanation of photoelectric effect – Features of atomic Spectra – Characteristics of Hydrogen spectrum, Bohr’s theory of structure of atom, Bohr’s explanation of spectralines, failure of Bohr’s theory

** Wave particle nature of electron – de Brogile’s hypothesis, Heisensbergs uncertainly principle, Important features of the Quantam mechanical model of atom, Quantum numbers, concept of orbitals – Expressing atomic orbitals interms of quantum numbers, shapes of s, p and d orbitals, Aufbau principle, paulis exclusion principle, Hunds’.rule of maximum multiplicity. Electronic configuration of atoms, explanation of stability of half – filled and completely filled orbitals. 