EAMCET 2011 Syllabus Mathematics Engineering Stream

EAMCET 2011 Syllabus Engineering Stream

NOTE

* In accordance to G.O.Ms.No: 16 Edn., (EC) Dept., Dt: 25th Feb’ 04, EAMCET Committee has specified the syllabus of EAMCET-2011 as given hereunder.

* The syllabus is in tune with the syllabus introduced by the Board of Intermediate Education, A.P., for Intermediate course with effect from the academic year 2009-2010

(Ist year) and 2010-2011 (2nd year) and is designed at the level of Intermediate Course and equivalent to (10+2) scheme of Examination conducted by Board of

Intermediate Education, AP.

* The syllabus is designed to indicate the scope of subjects included for EAMCET. The topics mentioned therein are not to be regarded as exhaustive. Questions may

be asked in EAMCET-2011 to test the student’s knowledge and intelligent understanding of the subject.

* The syllabus is applicable to students of both the current and previous batches of Intermediate Course, who are desiring to appear for EAMCET-2011.

Subject: MATHEMATICS

I. ALGEBRA: (a) Functions – Types of functions – Algebra of real valued functions (b) Mathematical induction and applications (c) Permutations and

Combinations – linear and circular permutations – combinations. (d) Binomial theorem – for a positive integral index – for any rational index – applications

– Binomial Coefficients. (e) Partial fractions (f) Exponential and logarithmic series (g) Quadratic expressions, equations and inequations in one variable.

(h) Theory of equations – Relations between the roots and Coefficients in any equation – Transformation of equations – reciprocal equations. (i) Matrices

and determinants – Types of matrices – Algebra of matrices – Properties of determinants – simultaneous linear equations in two and three variables –

Consistency and inconsistency of simultaneous equations. (j) Complex numbers and their properties – De Moivre’s theorem – Applications – Expansions

of trigonometric functions.

II. TRIGONOMETRY: (a) Trigonometric functions – Graphs – periodicity (b) Trigonometric ratios of compound angles, multiple and sub-multiple angles.

(c) Transformations (d) Trigonometric equations (e) Inverse trigonometric functions (f) Hyperbolic and inverse hyperbolic functions (g) Properties of

Triangles (h) Heights and distances (in two-dimensional plane)

III. VECTOR ALGEBRA: (a) Algebra of vectors – angle between two non-zero vectors – linear combination of vectors – vector equation of line and plane

(b) Scalar and vector product of two vectors and their applications (c) Scalar and vector triple products, Scalar and vector products of four vectors

IV. PROBABILITY: (a) Random experiments – Sample space – events – probability of an event – addition and multiplication theorems of probability –

Baye’s theorem (b) Random variables – Mean and variance of a random variable – Binomial and Poisson distributions

V. Coordinate Geometry: (a) Locus, Translation of axes, rotation of axes (b) Straight line (c) Pair of straight lines (d) Circles (e) System of circles

(f)Conics – Parabola – Ellipse – Hyperbola – Equations of tangent, normal, chord of contact and polar at any point of these conics (g) Polar Coordinates

(h) Coordinates in three dimensions, distance between two points in the space, section formula and their applications (i) Direction Cosines and direction

ratios of a line – angle between two lines (j) Cartesian equation of a plane in (i) general form (ii) normal form and (iii) intercept form – angle between two

planes (k) Sphere – Cartesian equation – Centre and radius

VI Calculus: (a) Functions – limits – Continuity (b) Differentiation – Methods of differentiation (c) Successive differentiation – Leibnitz’s theorem and its

applications (d) Applications of differentiation (e) Partial differentiation including Euler’s theorem on homogeneous functions (f) Integration – methods of integration (g) Definite integrals and their applications to areas – reduction formulae (h) Numerical integration – Trapezoidal and Simpson’s rules

(i) Differential equations – order and degree – Formation of differential equations – Solution of differential equation by variables seperable method –

Solving homogeneous and linear differential equations of first order and first degree.

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