MATHEMATICS - 1
- Academic year
- 2024/2025 Syllabus of previous years
- Official course title
- MATHEMATICS - 1
- Course code
- ET2018 (AF:506755 AR:291142)
- Modality
- On campus classes
- ECTS credits
- 6 out of 12 of MATHEMATICS
- Degree level
- Bachelor's Degree Programme
- Educational sector code
- SECS-S/06
- Period
- 1st Term
- Course year
- 1
- Where
- VENEZIA
- Moodle
- Go to Moodle page
Contribution of the course to the overall degree programme goals
In "Mathematics I" a particular attention is paid to problems of maximization and minimization of functions of one variable, as preparatory to optimization in multiple variables (discussed in the second part of the course).
Expected learning outcomes
a) Knowledge and understanding
a.1) Knowledge of basic definitions in calculus in one variable, such as: derivatives, limits, integrals;
a.2) Interpretation of the above definitions in terms of geometric properties, supported by a span of crucial examples.
b) Ability to apply knowledge and understanding
b.1) Ability to compute, for functions of one variable: derivatives, limits, integrals (elementary, by parts, by substitution);
b.2) Ability to analyse properties of functions of one variable, such as monotonicity, convexity, behaviour in the long run;
b.3) Ability to compute stationary and inflection points; ability to maximize/minimize a quantity described by a one variable function, particularly when it describes an economic variable;
b.3) Ability to interpret all above properties in examples of economic/managerial vocation.
c) (Lifelong) learning skills
c.1) Improved ability to handle a formal language, to make logic deductions; enhance rigorous rational thinking;
c.2) Improved ability to translate a problem into formal terms, solve it and interpret the solution in terms of the original problem.
Pre-requirements
Topics usually taught at schools of upper secondary education are given as known. In particular: the basics of set theory, real numbers; algebraic operations and properties of real numbers; powers and fractional powers, absolute values; equations and inequalities of first/second order, rational, irrational, exponential and logarithmic type; linear and quadratic functions; exponential and logarithmic functions; elements of analytic geometry: cartesian coordinates, distance of points in the plane, lines, parabolas, ellipses, hyperbolas and their equations and graphs in the plane.
Contents
a.1) Definition and geometric interpretation. Rules of differentiation.
a.2) Linear approximation.
a.3) Increasing/decreasing functions.
a.4) Rates of change and applications to economic examples.
a.5) Derivative of the inverse
b) Limits
b.1) Definition. Operations with limits. Indefinite forms.
b.2) L'Hopital’s rule.
b.3) Notable limits. Comparison of infinities of different strengths.
b.4) Change of variables in limits
b.5) One sided limits.
c) Continuous functions
c.1) Definition and examples
c.2) Necessary and sufficient conditions of continuity via left/right limits. Application to piecewise defined functions.
c.3) Intermediate value Theorem and applications.
c.4) Left/Right derivative. Sufficient conditions of differentiability via left and right limits.
c.5) Continuity versus differentiability.
d) Optimization
d.1) Definiton of maximum and minimum point. Stationary points.
d.2) First and second order conditions of optimality.
d.3) Weierstrass Theorem. Optimization on a compact interval.
d.4) Economic examples
e) Concavity/Convexity
e.1) Convex sets.
e.2) Epigraph, hypograph. Definition of convex and concave functions.
e.3) Necessary and sufficient conditions of convexity
e.4) Inflection points. Convexity and second derivatives.
e.5) Examples of notable concave functions in Economics.
f) Integration
f.1) Rules of integration, antiderivatives.
f.2) The Riemann integral, definite integrals. Fundamental theorem of integral calculus. Integral functions.
f.3) Economic examples
f.4) Improper integrals.
Referral texts
In addition, lecture slides, homework and solved exams are made available on the webpage of the course, the university e-learning platform moodle.unive.it.
Assessment methods
The exam consists of 6 problems, 3 of which on the topics of Mathematics I, and 3 on those of Mathematics II, to be solved in 2h30’ overall. Abilities acquired by students are verified by requiring them to solve the problems. Their acquired knowledge is verified by asking them to justify in detail their answers, on the basis of the theoretical results (definitions and theorems).
The exam is closed-notes and closed-book, but students are allowed to use a pocket calculator (scientific calculators computing derivatives and integrals, or plotting graphs, are not allowed).
The written exam is passed if the student scores at least 8 points in both parts of the exam.
Generally, there are extra points available (from 3 to 6) for receiving honors, totaling 33-36 points.
The available points are distributed as follows:
18-20 points for basic questions;
6-8 points for moderately difficult questions;
6-8 points for more complex questions.
If answers are not properly justified, they are worth zero. Therefore, it's important to explain what is being done and why.
The oral exam is optional for both the student and the instructor. In case of assessment doubts, the instructor can ask the student to take it. If the student wants to improve the grade, or if they have a grade that is not fully satisfactory but still higher than 16, they can request to take it.
Two partial exams are issued during the course time span, one covering the topics of Mathematics I and one covering those of Mathematics II. A score in each of the partial equal or above 8/30 is considered equivalent to the final written exam, with overall grade equal to the sum of the grades of the partials.
Samples of Exams with complete solutions are found in the moodle page of the course.
Teaching methods
In particular, during the course time, office hours are held in public. Students may come and ask questions or simply sit and listen to other students’ questions and to the instructor’s answers. A further discussion is also possible by appointment.
The topics discussed in class are supported by materials made available for download on the webpage of the course https://moodle.unive.it/course/view.php?id=4882 , including:
a) the complete set of slides/lecture notes;
b) weekly sets of homework;
c) a list of previous exams, all completely solved
d) all relevant information about the course, and real-time updates.
Teaching language
Further information
Accessibility, Disability, and Inclusion
Accommodation and support services for students with disabilities and students with specific learning impairments
Ca' Foscari abides by Italian Law (Law 17/1999; Law 170/2010) regarding support services and accommodation available to students with disabilities. This includes students with mobility, visual, hearing, and other disabilities (Law 17/1999), and specific learning impairments (Law 170/2010). If you have a disability or impairment that requires accommodations (i.e., alternate testing, readers, note takers or interpreters) please contact the Disability and Accessibility Offices in Student Services: disabilita@unive.it.
Type of exam
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