BVP CET Syllabus 2019

30 Jul, 2018

BVP CET Syllabus 2019 is for the candidates preparing for the BVP CET 2019 entrance exam. BVP CET is a university level entrance exam conducted by the Bharati Vidyapeeth University for admission into their 700 B. Tech seats. Official syllabus for the BVP CET 2019 is not published by the conducting body yet but the candidates can check BVP CET Syllabus which was released last year. The chances of any change in the BVP CET Syllabus 2019 is very less, however, we will update the syllabus given here in a case of any change in syllabus released for 2019 exam. Bharati Vidyapeeth University is one of the top universities and cracking BVP CET exam is quite tough so that the candidates are advised to get ready for the entrance exam. In order to prepare well for the entrance exam, the candidates have to cover entire topic given in the BVP CET Syllabus 2019 here on this page. Here, the candidates can check subject-wise and topic-wise syllabus. Questions in BVP CET 2019 exam will be asked about the topic given in the syllabus here so the candidates are suggested to cover each topic. The candidates are advised to read the complete article to know BVP CET Syllabus 2019 in details.

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BVP CET Syllabus 2019 – Check Syllabus Here

The candidates who are going to appear in BVP CET exam to be held in 2019 must prepare as per the syllabus is given here. The candidates can check the BVP CET syllabus 2019 for Physics and Mathematics in separate tables given below.

    BVP CET Syllabus 2019 for Physics

    • Physical World and Measurement
    • Kinematics
    • Laws of Motion
    • Work, Energy and Power
    • Motion of System of Particles and Rigid Body
    • Gravitation
    • Properties of Bulk Matter
    • Thermodynamics
    • Behaviour of perfect gas and kinetic theory
    • Oscillations and waves

    BVP CET Syllabus 2019 for Mathematics

    Chapters Topics
    Sets, Relations and Functions Review of set theory, Powerset, Composite function, Inverse function, Graphs of functions, Constant function Cartesian product, Relations, Functions, and Types of functions.
    Determinant Determinant of order 3, Cramer’s rule, Condition of consistency, Area of a triangle.
    Mathematical Induction and Binomial Theorem Binomial theorem for any index. Binomial coefficients. nÎN (statement only), Obtaining general term in the expansion. Principle of Mathematical Induction and its applications
    Logarithm Laws of logarithm with proof, Change of base, Introduction and definition, Numerical Problems
    Complex Numbers Complex Number in the form a+ib, Modulus, Complex Conjugate, Argument of Complex Number, Algebra of Complex numbers, Square roots of Complex numbers, Argand diagram
    Quadratic Equation Symmetric functions of roots, Complex cube roots of unity, Roots of equation, Nature of roots, Sum and product of roots, Formation of quadratic equation,
    Sequences and Series Harmonic mean , Special series : 2 3 ån, ån, ån and their uses, Arithmetic Progression, Geometric progression, Harmonic progression, Arithmetic mean, Geometric mean,
    Permutations and Combinations Circular permutation, Combinations, Relation between permutations and combinations, Properties of combination, Factorial Notation, Properties of n!, Fundamental Principle of Counting, Permutations, Permutations of repeated objects
    Limits & Continuity Rules of Differentiations :(a) Derivative of sum (b) Derivative of Difference (c) Derivative of product (d) Derivative of Quotient, Derivative from first principle, Relation between continuity and differentiability, Derivative of composite function, Derivative of inverse functions, Derivative of implicit functions, Derivative of parametric functions, Second order derivative. Definition of Derivative, Derivatives of (a) Constant functions,(b) Power functions, xx Trigonometric functions, Derivatives of log x, a, e (without proof)
    Applications of Derivatives Increasing and decreasing functions, Tangent and normal at a point to, a curve, Rate measurer, related rates, Approximations and small errors, Maxima and minima. Problems based on Cauchy’s Mean value theorem and Rolle’s mean value theorem.
    Integration (a) Fundamental Theorem of integral calculus (without proof)., (b) Properties of definite integrals. Definite Integrals, Methods of integration., a) Substitution Method., b) Integration by parts., c) Integration by partial fractions., Definite integrals, Definition of an Integral, Integral as a limit of sum, Integrals of some standard functions. Rules of integration.
    Application of integral Area under the curve, Volume of solid by revaluation
    Differential equations  (a) Variables separable method (b) Homogeneous and non-homogeneous differential equations, Applications of Differential equations, Growth and decay. Newton’s law of cooling, Half-life period, Surface area. Definitions of Differential equation, order, degree, General solution and Particular solution. Formation of Differential equation., Solutions of First order and first-degree differential equations.
    Boolean Algebra Application of Boolean Algebra to switching circuits. Boolean Algebra as an algebraic structure, Principle of duality, Boolean function and switching circuits
    Mathematical Logic Quantifiers and quantified statements, Negation of compound statement, Logical connectives and truth table, Statement pattern and logical equivalence, Tautology, Contradiction, Contingency, Applications of logic to switching circuits, Negation of quantified statement Statements, Truth values of statement, Compound statement
    Matrices Definition and types of matrices, Algebra of matrices, Inverse by adjoint method, Solution of Linear Equations by reduction method and inversion method. Elementary transformation and Inverse of Matrix by elementary transformation, Minors and cofactor of elements, Adjoint of matrix,
    Trigonometry Angle and its measurements, Standard angles, Angles in quadrant and quadrantal angles, Relation between degree measure and radian measure, Length of arc of a circle, Area of sector, Sum and difference of two angles , Properties of Triangle : Trigonometric ratios of angles of a triangle, Trigonometric ratios : Trigonometric ratios of any angle, Signs of Trigonometric ratios in different quadrants, Fundamental identities , Trigonometric ratios of compound angles, Cosine rule, Sine rule, Projection rule, Inverse Circular functions : Properties of inverse circular functions. Trigonometric ratios of allied angles, Trigonometric ratios of multiple angles, Trigonometric ratios of half angles, Factorization and Defactorization formulae, General solution of Trigonometric Equations. Area of triangle.
    Vectors Scalar and vector, Different types of vectors, Collinear vectors, Co-planar vectors , Algebra of vectors , Addition of vectors, Scalar multiplication of Vectors, Position vectors, Scalar products and its properties, Vector products and its properties, Angle between two vectors, Collinearity and Coplanarity of vectors, Section formula., Midpoint formula, Centroid formula, Scalar triple product., Volume of parallelepiped, Applications of vectors to Geometry. Applications of vectors to mechanics. Vector area of triangle and parallelogram
    Three Dimensional Geometry Line: Equation of line passing through given point and parallel to given vector, Equation of line passing through given two points, (Vector and Cartesian form), coplanarity of two lines. Distance of a point from a plane. Equation of plane passing through the intersection of two planes. Plane: Equation of plane in different forms, Equation of plane passing through three points, angle between two planes, (Vector and Cartesian form). Distance of line from a point, Skew lines Distance between skew lines. Distance between parallel lines. Plane: Angle between line and plane, Direction Cosines and Direction Ratios: Relation between direction cosines and direction ratios, Angle between two lines, Condition of perpendicular and parallel lines,
    Statistics Measures of dispersion: Range, Mean Deviation, Variance and standard deviation, Quartile deviation, Bivariate frequency Distribution: Tabulation, Correlation, Scatter diagram, Covariance, Conditional probability, Independent events, Baye’s theorem, Random variable, Karl Pearson’s coefficient of correlation. Probability: Events and Algebra of events, Definition of probability, Addition theorem, Multiplication theorem, Discrete and continuous random variable, Probability distribution of discrete and continuous random variable. Normal distribution. Mean and variance of Normal distribution. Standard Normal variables.Binomial distribution, Bernoulli Trial, Binomial distribution. Condition for Binomial Distribution. Mean and variance of Binomial distribution.
    Linear Programming Solution of linear programming problems by graphical methods (a) ISO profit and ISO cost line (b) Corner method. Solution of linear inequalities in one & two variable, Introduction of concepts, Formation of linear programming problem, Graphical solution of linear programming problem.
    Plane Co-ordinate Geometry conditions of concurrent lines, distance of a point from a line, Condition that general second degree equation in x and y represents a pair of lines, conditions of parallel lines and perpendicular lines, angle between the lines represented by ax2 + 2hxy + by2 + 2gx + 2fy + c = o Circle : Different forms of Equations of a circle, Standard equation, General equation, Centre radius form, Parametric equation of a circle, Tangent and normal, Equations of tangent and normal, condition of tangency to the standard circle, Director circle, family of lines Pair of straight lines : Pair of lines passing through origin, Pair of lines not passing through origin. Locus: definition of locus, Equation of locus, Point of locus, Shift of origin. Line : Definition of line, slope of line, equation of lines in standard forms, general equation, angle between two lines, point of intersection of lines, Length of tangent segment, tangent in terms of slope, Number of tangents from a point to conic (parabola, Ellipse, Hyperbola). Director circle. Conics : Definition of conic, Equations of conics, Focus, Directrix, Eccentricity, Classification of conics, Standard equations of parabola, Ellipse, Hyperbola, Tangents and Normals, Equation of tangent and normal at a point, condition of tangency, tangent in terms of slope.

    BVP CET Exam Pattern 2019

    In order to prepare for the BVP CET Exam 2019, the candidates are not just required the focus on BVP CET Syllabus 2019 but also keep BVP CET Exam Pattern 2019 in their mind. BVP CET 2019 will have total 2 papers which will consist of questions in Mathematics and in Physics subjects. To crack BVT CET exam, the candidates will have to qualify in both the subjects. The candidates who are going to appear in BVP CET exam in 2019 will have to follow the exam pattern given below:

    Particulars Details
    Time duration of exam 3 hours
    Language of exam English
    Mode of exam Online
    Type of questions Multiple choice question
    Marking scheme 1 mark will be provided for each correct answer. There is no negative marking for the wrong answer.
    Total marks 200 (Mathematics- 100, Physics – 100)

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