department of mathematics mata sundri college (university of delhi)
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Department of Mathematics Mata Sundri College (University of Delhi). Introduction of Discipline Course II. Prerequisite: For the Discipline Course II, The student must have studied Mathematics Upto 10+2 Level. - PowerPoint PPT PresentationTRANSCRIPT
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Department of Mathematics
Mata Sundri College(University of Delhi)
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Introduction of Discipline
Course II
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Prerequisite: For the Discipline Course II, The student must have studied Mathematics Upto 10+2 Level.
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The course structure of Discipline-II in Mathematics is
a blend of pure and applied papers. The study of this
course would be beneficial to students belonging to
variety of disciplines such as Economics, Physics,
Engineering, Management Sciences, Computer
Sciences, Operational research and Natural sciences.
The course has been designed to help one pursue a
masters degree in Mathematics and also helps in
various competitive examinations. The first two
courses on Calculus and Linear Algebra are central to
both pure and applied mathematics. The next two
courses differential equations & Mathematical
modeling and Numerical methods with practical
components are of applied nature.
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The course on Differential Equations and Mathematical
Modeling deals with modeling of much Physical,
technical, or biological process in the form of
differential equations and their solution procedures.
The course on Numerical Methods involves the design
and analysis of techniques to give approximate but
accurate solutions of hard problems using iterative
methods. The last two courses on Real Analysis and
Abstract Algebra provides an introduction to the two
branches of Pure Mathematics in a rigorous and
definite form.
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What is Calculus?
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From Latin, calculus, a small stone used for
counting
A branch of Mathematics including limits,
derivatives, integrals, and infinite sums
Used in science, economics, and engineering
Builds on algebra, geometry, and
trigonometry with two major branches
differential calculus and integral calculus
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Definition of limit of a function, One sided limit, Limits at infinity, Curve sketching, Volumes of solids of revolution by the washer method .
Sample of syllabus
Vector valued functions: Limit, Continuity, Derivatives, integrals, Arc length, Unit tangent vector Chain Rule, Directional derivatives, Gradient,
Tangent plane and normal line, Extreme values, Saddle points and so on.
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Introduction to Limits
What is a limit?
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A Geometric Example
Look at a polygon inscribed in a circle
As the number of sides of the polygon increases, the polygon is getting closer to becoming a circle.
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If we refer to the polygon as an n-gon, where n is the number of sides we can make some
Mathematical statements:
As n gets larger, the n-gon gets closer to being a circle
As n approaches infinity, the n-gon approaches the circle
The limit of the n-gon, as n goes to infinity is the circle
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limn
n go Ci cn r le
The symbolic statement is:
The n-gon never really gets to be the
circle, but it gets close - really, really
close, and for all practical purposes, it
may as well be the circle. That is what
limits are all about!
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Numerical Examples
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Let’s look at the sequence whose nth term is given by
1, ½, 1/3, ¼, …..1/10000,…., 1/10000000000000..
As n is getting bigger, what are these terms approaching?
1na n
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01
limn n
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Graphical
Examples
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1( )f x
x
As x gets really, really big, what is happening to the height, f(x)?
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01
limx x
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As x gets really, really small, what is happening to the height, f(x)?
Does the height, or f(x) ever get to 0?
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Nonexistence
Examples
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Oscillating Behavior
Discuss the existence of the limit
0
1limsinx x
X 2/π 2/3π 2/5π 2/7π 2/9π 2/11π X 0
Sin(1/x)
1 -1 1 -1 1 -1 Limit does not exist
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Differential Equations and Mathematical Modeling
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First order ordinary differential equations: Basic concepts and ideas, Modeling: Exponential growth and decay, Direction field, Separable equations, Modeling: Radiocarbon dating, Mixing problem
Orthogonal trajectories of curves, Existence and uniqueness of solutions, Second order differential equations: Homogenous linear equations of second order Partial differential equations: Basic Concepts and
definitions, Mathematical problems, First order equations: Classification, Construction, Geometrical interpretation, Method of characteristics and so on.
Sample of syllabus
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The Derivative of a function of a real variable measures the sensitivity to change of a quantity (a function or dependent variable) which is determined by another quantity (the independent variable). It is a fundamental tool of calculus
Example:
Velocity is the rate of change of the position of an object, equivalent to a specification of its speed and direction of motion, e.g. 60 km/h to the north. Velocity is an important concept in kinematics, the branch of classical mechanics which describes the motion of bodies.
As a change of direction occurs while the cars turn on the curved track, their velocity is not constant.
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Integration is an important concept in mathematics and, together with its inverse, differentiation, is one of the two main operations in calculus. Given a function f of a real variable x and an interval [a, b] of the real line, the definite integral
is defined informally to be the signed area of the region in the xy-plane bounded by the graph of f, the x-axis, and the vertical lines x = a and x = b, such that area above the x-axis adds to the total, and that below the x-axis subtracts from the total.
The term integral may also refer to the related notion of the antiderivative, a function F whose derivative is the given function f. In this case, it is called an indefinite integral and is written:
( )b
af x dx
( ) ( )F x f x dx
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A definite integral of a function can be represented as the signed area of the region bounded by its graph.
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Differential Equations
Describe the way quantities change with respect to other quantities (for instance, time)
The laws of science are easily expressed by DE (more difficult when depends on position, or
on time)Newton’s Law of CoolingPopulation Dynamics
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Definition: A differential equation is an equation containing
an unknown function and its derivatives.
2
2
43
3
1. 2 3,
2. 3 0,
3. 6 3,
dyx
dx
d y dyay
dx dx
d y dyy
dx dx
Examples:
where y is dependent variable and x is independent variable.
Ordinary differential equations
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Physical Origin
30
1. Newton’s Low of Cooling
sTTdt
dT
where dT/dt is rate of cooling of the liquid , And
T- Ts is temperature difference between the liquid
T its surrounding Ts.
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2. Growth and Decay
dyy
dt
where y is the quantity present at any time
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1 2 ,y c x c
2
20.
d y
dx
1. For the family of straight lines
the differential equation is
2. For the family of curves
xx ececy 32
21
2
26 0.
d y dyy
dx dx
32
3. Geometric Origin
The differential equation is
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Introduction to mathematical
Modeling with ODEs
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The Five Stages of Modeling
1. Ask the question.2. Select the modeling approach.3. Formulate the model.4. Solve the model. Validate if
possible.5. Answer the question.
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If N (representing, eg, bacterial density, or number of tumor cells) is a continuous function of t (time), then the derivative of N with respect to t is another function, called dN/dt, whose value is defined by the limit process
it represents the change is N with respect to time.
0
( ) ( )lim ,t
dN N t t N t
dt t
Example:
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Our Cell Division Model: Getting the ODE
Let N(t) = bacterial density over time Let K = the reproduction rate of the
bacteria per unit time (K > 0) Observe bacterial cell density at times t
and (t + Dt). Then N(t +Dt) ≈ N(t) + K N(t) Dt
Rewrite: [N(t+Dt) – N(t)]/Dt ≈ KN(t)
Total density at time t+Dt
Total density at time t + increase in density due to reproduction during time interval Dt
≈
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Our Cell Division Model: Getting the ODE
• Take the limit as Dt → 0
“Exponential growth” (Malthus:1798)
• Analytic solution possible here.
)N(N
eNtN Kt
0
)(
0
0
KNdTdN
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Exponential Growth: Realistic?
June 2005
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Exponential growth models of physical
phenomena only apply within limited regions,
as unbounded growth is not physically realistic.
Although growth may initially be exponential,
the modelled phenomena will eventually enter
a region in which previously ignored negative
feedback factors become significant (leading to
a logistic growth model) or other underlying
assumptions of the exponential growth model,
such as continuity or instantaneous feedback,
break down.
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What is Linear Algebra?
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Linear algebra is the branch of
mathematics concerning vector
spaces and linear mappings between such
spaces. It is study of lines, planes, and
subspaces and their intersections using
algebra. Linear algebra assigns vectors as the
coordinates of points in a space, so that
operations on the vectors define operations
on the points in the space.
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Fundamental operation with vectors in Euclidean space Rn, Linear combination of vectors, Dot product and their properties, Cauchy−Schwarz inequality, Triangle inequality, Projection vectors.
Linear combination of vectors, Row space, Eigenvalues, Eigenvectors, Eigenspace, Characteristic polynomials, Diagonalization of matrices.
Orthogonal and orthonormal vectors, Orthogonal and orthonormal bases, Orthogonal complement, Projection theorem (Statement only), Orthogonal projection onto a subspace, Application: Least square solutions for inconsistent systems and so on.
Sample of syllabus
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USES OF LINEAR ALGEBRA
CRYPTOGRAPHY
SPACE EXPLORATION
GAME PROGRAMMING
ELECTRICAL NETWORKS
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MATRICES IN
GAMES
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LIGHTS OUT GAME LIGHTS OUT GAME
TURN
THE
LIGHTS
OFF
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LIGHTS OUT GAME LIGHTS OUT GAME
TURN
THE
LIGHTS
OFF
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LIGHTS OUT GAME LIGHTS OUT GAME
TURN
THE
LIGHTS
OFF
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VECTORS IN
GAMES
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LIGHTS OUT GAME STORE INFORMATION
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LIGHTS OUT GAME CHANGING POSITION
ADDING
VECTORS
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3D OBJECTS
VECTOR
CROSS
PRODUCT
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Thanks