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Introductory mathematical course
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Introductory mathematical course in calculus for students of IT, engineering, economics etc. Teaching and learning strategies implemented: Flipped classroom (FC), Instruction-based learning and Project-based learning (PBL-WBL)
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| ECTS prévus: 5 | ||||||||||||||||
| Nombre d'apprenants: 200 | ||||||||||||||||
| Mode de prestation: Hybride | ||||||||||||||||
| Statut: En planification | ||||||||||||||||
| Accès public au cours: Public | ||||||||||||||||
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Contributeurs: Blaženka Divjak, Barbi Svetec, Mihaela Bosak, Damjan Klemenčić, Marija Maksimović |
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| Acquis d'apprentissage du cours | Niveau | Poids | ||||||||||||||
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| Explain the concept of the derivative of a real function of one real variable and its geometric interpretation | Comprendre | 10 | ||||||||||||||
| Analyze an elementary function using derivatives and sketch its graph | Analyser | 12 | ||||||||||||||
| Apply differential calculus to find local extrema of a function with one variable and inflection points of the function. | Appliquer | 12 | ||||||||||||||
| Determine the primitive function and apply integral calculus in calculating surface area and volume. | Appliquer | 12 | ||||||||||||||
| Analyze and solve a problem task in the area of mathematical analysis of the function of one variables | Analyser | 10 | ||||||||||||||
| Create a program solution for a specific mathematical problem and present the solution in written format | Créer | 16 | ||||||||||||||
| Explain the concept of primitive function and integrals of a function with one variable | Comprendre | 10 | ||||||||||||||
| Define elementary functions of a real variable, analyze their properties and sketch their graphs. | Analyser | 10 | ||||||||||||||
| Explain a concept of a limit and determine standard limits of functions | Appliquer | 8 | ||||||||||||||
| Poids total : 100 | ||||||||||||||||
| Nom du thème / de l'unité | Charge de travail | Type d'apprentissage | Mode de prestation | Groupes | Collaboration | Rétroaction | Activité obligatoire | Évaluation | ||||||||
| Points | Type | Fournisseurs | ||||||||||||||
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Introduction |
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| Introduction of the course and TLAs | ||||||||||||||||
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Introduction of the course Content, assessment and TLAs |
45 min | Acquisition | Hybride | Synchrone | Enseignant présent | Non | Non | Non | Non | Non | ||||||
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Disscusssion Students use disscusion online and ask questions, propose ideas |
60 min | Discussion | Hybride | Asynchrone | Enseignant non présent | Non | Oui | Pair | Non | Non | ||||||
| Charge totale de l'unité | 1.75h | |||||||||||||||
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Real functions of real variables Analyze and solve a problem task in the area of mathematical analysis of the function of one variables (40%)) , Define elementary functions of a real variable, analyze their properties and sketch their graphs. (60%)) |
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| The domain of the function. Composition. Bijection. Graph of the function. | ||||||||||||||||
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Repetition of basic concepts Students receive a pre-prepared video with which they repeat basic concepts of function and graphs of elementary functions. |
30 min | Acquisition | En ligne | Asynchrone | Enseignant non présent | Non | Non | Non | Non | Non | ||||||
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Disscusion Students participate in discussions related to the introductory video. They can ask questions that can be answered by other students or a teacher. |
15 min | Discussion | En ligne | Asynchrone | Enseignant présent | Non | Non | Pair, Enseignant | Non | Non | ||||||
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Quiz (basic concepts) Students take a short quiz which cover the basic notions from the video. |
10 min | Évaluation | En ligne | Asynchrone | Enseignant non présent | Non | Non | Automatisé | Non | 1 | Formative | Automatisé | ||||
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Lecture Professor checks how many students watched the video lesson and what the quiz results were. Based on the results of the quiz, teacher repeats concepts that are less well understood and designs lecture to upgrade and broad the topic. Students have possibility for additional questions. |
120 min | Acquisition | Hybride | Synchrone | Enseignant présent | Non | Non | Non | Non | Non | ||||||
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Practice Assistants work with students. During the exercises, students do standard tasks related to the topic. In a group, they solve slightly more complex tasks. |
90 min | Pratique | Hybride | Synchrone | Enseignant présent | Oui | Non | Enseignant, Pair | Non | Non | ||||||
| Charge totale de l'unité | 4.41h | |||||||||||||||
| Properties of real functions of a real variable | ||||||||||||||||
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Properties of real functions Students receive a pre-prepared video with which they repeat basic properties of real functions. |
30 min | Acquisition | En ligne | Asynchrone | Enseignant non présent | Non | Non | Non | Non | Non | ||||||
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Disscusion Students participate in discussions related to the introductory video. They can ask questions that can be answered by other students or a teacher. |
15 min | Discussion | En ligne | Asynchrone | Enseignant présent | Non | Non | Pair | Non | Non | ||||||
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Quiz (properties of real function) Students take a short quiz which cover the basic notions from the video. |
10 min | Évaluation | En ligne | Asynchrone | Enseignant non présent | Non | Non | Automatisé | Non | 1 | Formative | Automatisé | ||||
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Lecture Professor checks how many students watched the video lesson and what the quiz results were. Based on the results of the quiz, teacher repeats concepts that are less well understood and designs lecture to upgrade and broad the topic. Students have possibility for additional questions. |
120 min | Acquisition | Hybride | Synchrone | Enseignant présent | Non | Non | Non | Non | Non | ||||||
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Practice Assistants work with students. During the exercises, students do standard tasks related to the topic. In a group, they solve slightly more complex tasks. |
90 min | Pratique | Hybride | Synchrone | Enseignant présent | Oui | Non | Enseignant, Pair | Non | Non | ||||||
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Independent practical work Students work independently using the material in LMS Moodle and textbook. |
90 min | Pratique | Sur place | Asynchrone | Enseignant non présent | Non | Oui | Automatisé, Pair | Non | Non | ||||||
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Quiz (properties of real function-math problems) Students take a short quiz which cover the basic math problems. |
30 min | Évaluation | En ligne | Asynchrone | Enseignant non présent | Non | Non | Automatisé | Non | 2 | Formative | Automatisé | ||||
| Charge totale de l'unité | 6.41h | |||||||||||||||
| Examples of functions and their graphs | ||||||||||||||||
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Examples (real functions of real variable) Students receive a pre-prepared video with which they repeat basic properties of real functions. |
30 min | Acquisition | En ligne | Asynchrone | Enseignant non présent | Non | Non | Non | Non | Non | ||||||
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Disscusion Students participate in discussions related to the introductory video. |
15 min | Discussion | En ligne | Asynchrone | Enseignant présent | Non | Non | Pair, Enseignant | Non | Non | ||||||
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Quiz (examples) Students take a short quiz which cover the basic notions from the video. |
10 min | Évaluation | En ligne | Asynchrone | Enseignant non présent | Non | Non | Automatisé | Non | 1 | Formative | Automatisé | ||||
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Lecture Professor checks how many students watched the video lesson and what the quiz results were. Based on the results of the quiz, teacher repeats concepts that are less well understood and designs lecture to upgrade and broad the topic. Students have possibility for additional questions. |
120 min | Acquisition | Hybride | Synchrone | Enseignant présent | Non | Non | Non | Non | Non | ||||||
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Practice Assistants work with students. During the exercises, students do standard tasks related to the topic. In a group, they solve slightly more complex tasks. |
90 min | Pratique | Hybride | Synchrone | Enseignant présent | Oui | Non | Enseignant, Pair | Non | Non | ||||||
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Independent practical work Students work independently using the material in LMS Moodle and textbook. |
90 min | Pratique | Sur place | Asynchrone | Enseignant non présent | Non | Oui | Automatisé, Pair | Non | Non | ||||||
| Charge totale de l'unité | 5.91h | |||||||||||||||
| Sequences of real numbers and their properties | ||||||||||||||||
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Examples (real functions of real variable) Students receive a pre-prepared materials with which they repeat basic properties of sequences. Students have to independently investigate and repeat the basic concepts of arithmetic and geometric series. |
90 min | Investigation | En ligne | Asynchrone | Enseignant non présent | Non | Non | Non | Non | Non | ||||||
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Lecture Teacher repeats basic concepts of sequences (definition, arithmetic and geometric sequences, properties and examples of sequences) and upgrades and broad the topic with limit of sequence. |
180 min | Acquisition | Hybride | Synchrone | Enseignant présent | Non | Non | Non | Non | Non | ||||||
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Quiz (sequences) Students take a short quiz which cover the basic notions from lecture. |
10 min | Évaluation | En ligne | Asynchrone | Enseignant non présent | Non | Non | Automatisé | Non | 1 | Formative | Automatisé | ||||
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Practice Assistants work with students. During the exercises, students do standard tasks related to the topic. In a group, they solve slightly more complex tasks. |
180 min | Pratique | Hybride | Synchrone | Enseignant présent | Oui | Non | Enseignant, Pair | Non | Non | ||||||
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Independent practical work Students work independently using the material in LMS Moodle and textbook. |
120 min | Pratique | Sur place | Asynchrone | Enseignant non présent | Non | Oui | Automatisé, Pair | Non | Non | ||||||
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Quiz (sequences-math problems) Students take a short quiz which cover basic math problems. |
30 min | Évaluation | En ligne | Asynchrone | Enseignant non présent | Non | Non | Automatisé | Non | 2 | Formative | Automatisé | ||||
| Charge totale de l'unité | 10.16h | |||||||||||||||
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Limit of functions Explain a concept of a limit and determine standard limits of functions (100%)) , Analyze an elementary function using derivatives and sketch its graph (10%)) , Define elementary functions of a real variable, analyze their properties and sketch their graphs. (10%)) |
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| Limit of function | ||||||||||||||||
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Motivational example Students receive a pre-prepared video with motivational example for limit of function and intuitive definition. |
60 min | Acquisition | En ligne | Asynchrone | Enseignant non présent | Non | Non | Non | Non | Non | ||||||
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Lecture Professor checks how many students watched the video lesson. Professor explains basic concepts and designs lecture to upgrade and broad the topic (Heine's and Cauchy's definition of function limit, main properties and theorems with proofs, continuity of function). Students have possibility for additional questions. |
180 min | Acquisition | Hybride | Synchrone | Enseignant présent | Non | Non | Non | Non | Non | ||||||
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Quiz (limit of function) Students take a short quiz which cover the basic notions from lecture. |
15 min | Évaluation | En ligne | Asynchrone | Enseignant non présent | Non | Non | Automatisé | Non | 1 | Formative | Automatisé | ||||
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Practice Assistants work with students. During the exercises, students do standard tasks related to the topic. In a group, they solve slightly more complex tasks. |
120 min | Pratique | Hybride | Synchrone | Enseignant présent | Non | Non | Non | Non | Non | ||||||
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Independent practical work Students work independently using the material in LMS Moodle and textbook. |
180 min | Pratique | Sur place | Asynchrone | Enseignant non présent | Non | Oui | Automatisé, Pair | Non | Non | ||||||
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Quiz (limit of function-math problems) Students take a short quiz which cover the basic math problems. |
60 min | Évaluation | En ligne | Asynchrone | Enseignant non présent | Non | Non | Automatisé | Non | 2 | Formative | Automatisé | ||||
| Charge totale de l'unité | 10.25h | |||||||||||||||
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Monthly test 1 Analyze and solve a problem task in the area of mathematical analysis of the function of one variables (10%)) , Define elementary functions of a real variable, analyze their properties and sketch their graphs. (20%)) |
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| Preparation fot the test | ||||||||||||||||
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Independent practical work Students work independently |
200 min | Pratique | Sur place | Asynchrone | Enseignant non présent | Non | Oui | Automatisé, Pair | Non | Non | ||||||
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Disscussion about technical and content related isssues Students are given information in LMS and then they can ask questions. |
60 min | Discussion | En ligne | Asynchrone | Enseignant non présent | Non | Oui | Enseignant, Pair | Non | Non | ||||||
| Charge totale de l'unité | 4.33h | |||||||||||||||
| Monthly test (kolokvij) | ||||||||||||||||
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Test The test is prepared in hybrid delivery mode using individualised assignments from the databases in LMS. |
90 min | Évaluation | Hybride | Synchrone | Enseignant présent | Non | Non | Enseignant, Automatisé | Non | 20 | Sommative | Enseignant, Automatisé | ||||
| Charge totale de l'unité | 1.5h | |||||||||||||||
| Analysis of the test | ||||||||||||||||
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Students' feedback A questionnaire with open and closed questions is used. Students give feedback to teachers (technical and content wise). |
20 min | Discussion | En ligne | Asynchrone | Enseignant non présent | Non | Non | Non | Non | Non | ||||||
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Analysis of the test Reliability, validity, students' satisfaction survey, explaining solutions |
45 min | Discussion | Hybride | Synchrone | Enseignant présent | Non | Non | Enseignant | Non | Non | ||||||
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Further student investigation Students investigate application areas of mathematics learned. |
90 min | Investigation | En ligne | Asynchrone | Enseignant non présent | Oui | Oui | Pair | Non | Non | ||||||
| Charge totale de l'unité | 2.58h | |||||||||||||||
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The Derivative - basic concepts, techniques and rules Explain the concept of the derivative of a real function of one real variable and its geometric interpretation (90%)) , Apply differential calculus to find local extrema of a function with one variable and inflection points of the function. (30%)) , Analyze an elementary function using derivatives and sketch its graph (20%)) , Define elementary functions of a real variable, analyze their properties and sketch their graphs. (10%)) |
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| Concept and definition of the derivative | ||||||||||||||||
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Introduction of problems - motivation FC approach Video on problems that lead to the derivative: the slope of a tangent, velocity, optimization |
30 min | Acquisition | En ligne | Asynchrone | Enseignant non présent | Non | Non | Non | Non | Non | ||||||
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Disscusion Students participate in discussions related to the introductory video. |
30 min | Discussion | En ligne | Asynchrone | Enseignant non présent | Non | Non | Pair | Non | 0 | Formative | Pair | ||||
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Lecture - concept of derivative Professors work with students in a hybrid format on the development od the concept of the derivative, geometric interpretation and definition. |
60 min | Acquisition | Hybride | Synchrone | Enseignant présent | Non | Non | Non | Non | Non | ||||||
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Quiz Students take a short quiz based on the concept od the derivative. |
20 min | Évaluation | En ligne | Asynchrone | Enseignant présent | Non | Non | Automatisé | Non | 1 | Formative | Automatisé | ||||
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Practice Assistants work with students on derivatives; techniques and rules application. |
90 min | Pratique | Sur place | Synchrone | Enseignant présent | Non | Oui | Enseignant | Non | Non | ||||||
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Independent practical work. Students practice different differentiation techniques based on material in LMS and texbooks. |
90 min | Pratique | Sur place | Asynchrone | Enseignant non présent | Non | Non | Automatisé | Non | Non | ||||||
| Charge totale de l'unité | 5.33h | |||||||||||||||
| Derivatives of implicit functions, chain rule, higher-order derivatives | ||||||||||||||||
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Video lecture - advanced techniques Students listen to a short video on the introduction advanced techniques of differentiation and then participate in a face to face presentation by the teacher on these techniques. |
60 min | Acquisition | Hybride | Synchrone | Enseignant présent | Non | Non | Non | Non | Non | ||||||
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Quiz Students take a short quiz based on advanced techniques of differentiation. |
20 min | Évaluation | En ligne | Asynchrone | Enseignant présent | Non | Non | Non | Non | 2 | Formative | Automatisé | ||||
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Practice Assistants work with students on examples of derivation of implicit functions and chain rule. |
90 min | Pratique | Sur place | Synchrone | Enseignant présent | Non | Oui | Enseignant | Non | Non | ||||||
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Independent practical work - advanced techniques. Students learn and practice higher-order derivatives based on material in LMS and texbooks. |
90 min | Pratique | Sur place | Asynchrone | Enseignant non présent | Non | Non | Automatisé | Non | Non | ||||||
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Independent investigation Students are required to investigate on their own the application areas and history of calculus. |
90 min | Investigation | En ligne | Asynchrone | Enseignant non présent | Non | Non | Non | Non | Non | ||||||
| Charge totale de l'unité | 5.83h | |||||||||||||||
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Application of derivatives Apply differential calculus to find local extrema of a function with one variable and inflection points of the function. (60%)) , Analyze an elementary function using derivatives and sketch its graph (50%)) , Analyze and solve a problem task in the area of mathematical analysis of the function of one variables (10%)) |
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| Finding local extrema | ||||||||||||||||
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Video-lecture - function extrema Student listen video lecture about finding the absolute (or global) minimum and maximum values of a function. |
30 min | Acquisition | En ligne | Synchrone | Enseignant non présent | Non | Non | Enseignant | Non | Non | ||||||
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Quiz Students take a short quiz based on finding extrema of function. |
20 min | Évaluation | En ligne | Asynchrone | Enseignant présent | Non | Non | Automatisé | Non | 1 | Formative | Automatisé | ||||
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Practice Assistants work with students on finding function increasing or decrease intervals by use of local extrema. |
90 min | Pratique | Sur place | Synchrone | Enseignant présent | Non | Oui | Enseignant | Non | Non | ||||||
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Independent practical work-finding extrema Students practice finding increasing or decreasing intervals based on material in LMS and texbooks. |
90 min | Pratique | Sur place | Asynchrone | Enseignant non présent | Non | Non | Automatisé | Non | Non | ||||||
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Self-assessment Students take self-assessment based on the assessment tasks in LMS (database). Based on the results they are instructed to further investigate. |
90 min | Investigation | En ligne | Asynchrone | Enseignant non présent | Non | Oui | Enseignant | Non | 0 | Formative | Enseignant | ||||
| Charge totale de l'unité | 5.33h | |||||||||||||||
| Curvature‐ Concavity and convexity | ||||||||||||||||
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Video-lecture- Concavity and convexity Student watch video lecture that explains points of inflection, and concavity and convexity of a function. |
25 min | Acquisition | En ligne | Synchrone | Enseignant non présent | Non | Non | Enseignant | Non | Non | ||||||
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Independent practical work -concavity and convexity Students practice finding point of inflection based on material in LMS and texbooks. |
90 min | Pratique | Sur place | Asynchrone | Enseignant non présent | Non | Non | Automatisé | Non | Non | ||||||
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Quiz Students take a short quiz about function concavity and convexity. |
20 min | Évaluation | En ligne | Asynchrone | Enseignant présent | Non | Non | Automatisé | Non | 2 | Formative | Automatisé | ||||
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Practice Assistants work with students on describing the shape or curvature of a curve. |
90 min | Pratique | Sur place | Synchrone | Enseignant présent | Non | Oui | Enseignant | Non | Non | ||||||
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Self-assessment Students take self-assessment based on the assessment tasks in LMS (database). Based on the results they are instructed to further investigate. |
90 min | Investigation | En ligne | Asynchrone | Enseignant non présent | Non | Oui | Enseignant | Non | 0 | Formative | Enseignant | ||||
| Charge totale de l'unité | 5.25h | |||||||||||||||
| Plotting graph | ||||||||||||||||
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Reading- graph plotting Students read material about applying derivatives on plotting graph functions. |
60 min | Acquisition | En ligne | Synchrone | Enseignant non présent | Non | Non | Non | Non | 0 | Formative | Automatisé | ||||
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Independent practical work - graph plotting Students practice graph plotting based on material in LMS and texbooks. |
90 min | Pratique | Sur place | Asynchrone | Enseignant non présent | Non | Non | Automatisé | Non | Non | ||||||
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Practice Assistants work with students on plotting graphs. |
90 min | Pratique | Sur place | Synchrone | Enseignant présent | Non | Oui | Enseignant | Non | Non | ||||||
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Self-assessment Students in small group take self-assessment based on the assessment tasks in LMS (database). |
90 min | Évaluation | En ligne | Asynchrone | Enseignant non présent | Oui | Oui | Enseignant, Automatisé | Non | 2 | Formative | Enseignant | ||||
| Charge totale de l'unité | 5.5h | |||||||||||||||
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Monthly test 2 Explain the concept of the derivative of a real function of one real variable and its geometric interpretation (10%)) , Apply differential calculus to find local extrema of a function with one variable and inflection points of the function. (10%)) , Analyze an elementary function using derivatives and sketch its graph (20%)) |
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| Preparation fot the test | ||||||||||||||||
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Independent practical work Students work independently |
200 min | Pratique | Sur place | Asynchrone | Enseignant non présent | Non | Oui | Automatisé, Pair | Non | Non | ||||||
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Disscussion about technical and content related isssues Students are given information in LMS and then they can ask questions. |
60 min | Discussion | En ligne | Asynchrone | Enseignant non présent | Non | Oui | Enseignant, Pair | Non | Non | ||||||
| Charge totale de l'unité | 4.33h | |||||||||||||||
| Monthly test (kolokvij) | ||||||||||||||||
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Test The test is prepared in hybrid delivery mode using individualised assignments from the databases in LMS. |
90 min | Évaluation | Hybride | Synchrone | Enseignant présent | Non | Non | Enseignant, Automatisé | Non | 20 | Sommative | Enseignant, Automatisé | ||||
| Charge totale de l'unité | 1.5h | |||||||||||||||
| Analysis of the test | ||||||||||||||||
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Students' feedback A questionnaire with open and closed questions is used. Students give feedback to teachers (technical and content wise). |
20 min | Discussion | En ligne | Asynchrone | Enseignant non présent | Non | Non | Non | Non | Non | ||||||
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Analysis of the test Reliability, validity, students' satisfaction survey, explaining solutions |
45 min | Discussion | Hybride | Synchrone | Enseignant présent | Non | Non | Enseignant | Non | Non | ||||||
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Further student investigation Students investigate application areas of mathematics learned. |
90 min | Investigation | En ligne | Asynchrone | Enseignant non présent | Oui | Oui | Pair | Non | Non | ||||||
| Charge totale de l'unité | 2.58h | |||||||||||||||
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Project team work - PEER ASSESSMENT Analyze and solve a problem task in the area of mathematical analysis of the function of one variables (5%)) , Create a program solution for a specific mathematical problem and present the solution in written format (100%)) |
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| Preparation for the project | ||||||||||||||||
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Presentation of teamwork Professors and assistants present the way of working on the project, the choice of the project topic and the formation of the project team. The link of the project assignment (PBL) with the learning outcomes is explained, and how the PBL will contribute to students' future jobs. Teachers present the initial proposal of evaluation criteria for the project. The initial criteria include: research on the theoretical background, investigation of possible methodology for a solution, problem solution, presentation of the solution, quality of teamwork. Number of students: cca 100, 3-4 per team |
45 min | Discussion | Hybride | Synchrone | Enseignant présent | Non | Non | Non | Non | Non | ||||||
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Choice of project topic and team Students form teams of 3-4 (based on their own choice) and then choose a project topic from the list. Students investigate the research topics before making a final choice. Each team will be provided with their own virtual environment for teamwork (wiki). |
75 min | Discussion | En ligne | Asynchrone | Enseignant non présent | Oui | Oui | Non | Non | Non | ||||||
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Initial research, discussion and questions Students research the project topic and discuss the topic within the team, but can also ask questions in a discussion forum in the LMS. |
90 min | Investigation | En ligne | Asynchrone | Enseignant non présent | Oui | Oui | Enseignant, Pair | Non | Non | ||||||
| Charge totale de l'unité | 3.5h | |||||||||||||||
| Work on project | ||||||||||||||||
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Disscusion of peer-assessment criteria Teachers and students discuss the criteria for project assessment, the level of achievement, and how to recognize the level of achievement. At the end, a rubric is finalized and hopefully understood by all the students. The initial criteria may be changed based on discussion. The levels of achievement will be described, ranging from 0 do 4 (depending on a specific criterion - some may have 2, and other 3 or 4 levels). |
45 min | Discussion | Hybride | Synchrone | Enseignant présent | Non | Non | Non | Non | Non | ||||||
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Excercise peer-assessment (peer-grading) Students are supposed to peer-assess two projects (for previous years - including one better and one not-so-good) to practice how to use the LMS, criteria, and rubrics. After that, discussion about the process is performed and the criteria are clarified if necessary. Students discuss (mutually and with the teacher) the issues related to academic integrity, fair assessment and ethical issues related to cheating. |
90 min | Pratique | En ligne | Asynchrone | Enseignant présent | Non | Oui | Enseignant, Automatisé, Pair | Non | Non | ||||||
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Project work Students research the chosen topic and collaborate within their teams. Students solve a project task, create a software solution and/or use adequate tools, and prepare written material(s) and other necessary documentation. Finally, they upload all the artifacts into the LMS (workshop in Moodle). |
640 min | Production | Hybride | Asynchrone | Enseignant non présent | Oui | Oui | Enseignant, Pair | Non | Non | ||||||
| Charge totale de l'unité | 12.91h | |||||||||||||||
| Project assessment and presentation | ||||||||||||||||
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Presentation Students' teams present their projects to teachers and other students. Teachers and other students ask questions and discuss the solutions. |
120 min | Discussion | Hybride | Synchrone | Enseignant présent | Oui | Oui | Enseignant, Pair | Non | Non | ||||||
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Assessment and peer-assessment (peer-grading) Students participate in peer-assessment based on the pre-defined assessment criteria and levels of achievement given in the assessment rubric in the Moodle workshop. Each student is assigned with 2 projects to assess - the distribution is done automatically in the Moodle workshop. Peer-assessment is double-blinded: students are not given information about whose work they are assessing or who is assessing their work. The final grade is calculated based on teacher assessment (higher weight) and student peer-assessment (lower weight). Students are given grades for (1) their project submission and (2) their peer-assessment. |
90 min | Évaluation | Hybride | Asynchrone | Enseignant présent | Non | Non | Enseignant, Pair | Non | 20 | Sommative | Enseignant, Pair | ||||
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Reflection on results Students and teachers discuss the results of the PBL and peer-assessment, based on the learning analytics provided in Moodle and not on an individual basis. Each team has the opportunity to propose improvements to their artifact based on the feedback received. Improved artifacts can be resubmitted and teachers decides on whether the grades should be modified based on that. |
90 min | Investigation | Hybride | Synchrone | Enseignant présent | Non | Oui | Enseignant, Automatisé, Pair | Non | Non | ||||||
| Charge totale de l'unité | 5h | |||||||||||||||
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Integration - basic concepts, techniques and rules Explain the concept of primitive function and integrals of a function with one variable (45%)) , Determine the primitive function and apply integral calculus in calculating surface area and volume. (20%)) , Analyze and solve a problem task in the area of mathematical analysis of the function of one variables (35%)) |
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| Concept and definition of integration | ||||||||||||||||
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Introduction of problems - motivation Video on problems that lead to the integral: calculating surface of area, concept of primitive function and integrals of a function ( upper and lower Darboux sum). |
30 min | Acquisition | En ligne | Asynchrone | Enseignant non présent | Non | Non | Non | Non | Non | ||||||
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Disscusion Students participate in discussions related to the introductory video |
15 min | Discussion | En ligne | Asynchrone | Enseignant non présent | Non | Non | Pair | Non | 0 | Formative | Pair | ||||
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Lecture - concept of integral Professors work with students in a hybrid format on the development od the concept of the integral, geometric interpretation and definition. |
120 min | Acquisition | Hybride | Synchrone | Enseignant présent | Non | Non | Non | Non | Non | ||||||
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Quiz Students take a short quiz based on the concept od the integral |
10 min | Évaluation | En ligne | Asynchrone | Enseignant présent | Non | Non | Automatisé | Non | 1 | Formative | Automatisé | ||||
| Charge totale de l'unité | 2.91h | |||||||||||||||
| Integration techniques | ||||||||||||||||
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Lecture - advanced techniques Professor presents advanced techniques of integration. Students can ask questions. |
90 min | Acquisition | Hybride | Synchrone | Enseignant présent | Non | Non | Non | Non | Non | ||||||
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Practice Assistants work with students on integrals; techniques and rules application. |
120 min | Pratique | Sur place | Synchrone | Enseignant présent | Non | Oui | Enseignant | Non | Non | ||||||
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Independent practical work. Students learn and practice bsed on material in LMS and texbooks. |
120 min | Pratique | Sur place | Asynchrone | Enseignant non présent | Non | Non | Automatisé | Non | Non | ||||||
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Quiz (Integration-math problems) Students take a short quiz based on the concept od the derivative. |
30 min | Évaluation | En ligne | Asynchrone | Enseignant présent | Non | Non | Automatisé | Non | 2 | Formative | Automatisé | ||||
| Charge totale de l'unité | 6h | |||||||||||||||
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Application of integral calculus Explain the concept of primitive function and integrals of a function with one variable (35%)) , Determine the primitive function and apply integral calculus in calculating surface area and volume. (60%)) |
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| Calculating surface area | ||||||||||||||||
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Lecture - calculating surface Student listen video lecture about calculating surface area. |
45 min | Acquisition | En ligne | Synchrone | Enseignant non présent | Non | Non | Enseignant | Non | Non | ||||||
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Quiz Students take a short quiz based on calculating surface area. |
20 min | Évaluation | En ligne | Asynchrone | Enseignant présent | Non | Non | Automatisé | Non | 1 | Formative | Automatisé | ||||
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Lecture Professor checks how many students watched the video lesson and what the quiz results were. Based on the results of the quiz, teacher repeats concepts that are less well understood and designs lecture to upgrade and broad the topic. Students have possibility for additional questions. |
120 min | Acquisition | Hybride | Synchrone | Enseignant présent | Non | Non | Non | Non | Non | ||||||
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Practice Assistants work with students on calculating surface area. |
120 min | Pratique | Sur place | Synchrone | Enseignant présent | Non | Oui | Enseignant | Non | Non | ||||||
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Independent practical work-calculating surface area Students practice calculating surface area. |
180 min | Pratique | Sur place | Asynchrone | Enseignant non présent | Non | Non | Automatisé | Non | Non | ||||||
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Self-assessment Students take self-assessment based on the assessment tasks in LMS (database). |
90 min | Évaluation | En ligne | Asynchrone | Enseignant non présent | Non | Oui | Enseignant | Non | 2 | Formative | Enseignant | ||||
| Charge totale de l'unité | 9.58h | |||||||||||||||
| Calculating volume | ||||||||||||||||
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Lecture - calculating volume Student listen video lecture about calculating volume. |
30 min | Acquisition | En ligne | Synchrone | Enseignant non présent | Non | Non | Enseignant | Non | Non | ||||||
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Quiz Students take a short quiz based on calculating volume. |
20 min | Évaluation | En ligne | Asynchrone | Enseignant présent | Non | Non | Automatisé | Non | 1 | Formative | Automatisé | ||||
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Lecture Professor checks how many students watched the video lesson and what the quiz results were. Based on the results of the quiz, teacher repeats concepts that are less well understood and designs lecture to upgrade and broad the topic. Students have possibility for additional questions. |
90 min | Acquisition | Hybride | Synchrone | Enseignant présent | Non | Non | Non | Non | Non | ||||||
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Practice Assistants work with students on calculating volume. |
90 min | Pratique | Sur place | Synchrone | Enseignant présent | Non | Oui | Enseignant | Non | Non | ||||||
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Independent practical work-calculating volume Students practice calculating volume. |
120 min | Pratique | Sur place | Asynchrone | Enseignant non présent | Non | Non | Automatisé | Non | Non | ||||||
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Self-assessment Students take self-assessment based on the assessment tasks in LMS (database). |
90 min | Évaluation | En ligne | Asynchrone | Enseignant non présent | Non | Oui | Enseignant | Non | 2 | Formative | Enseignant | ||||
| Charge totale de l'unité | 7.33h | |||||||||||||||
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Monthly test 3 Explain the concept of primitive function and integrals of a function with one variable (20%)) , Determine the primitive function and apply integral calculus in calculating surface area and volume. (20%)) |
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| Preparation fot the test | ||||||||||||||||
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Independent practical work Students work independently |
200 min | Pratique | Sur place | Asynchrone | Enseignant non présent | Non | Oui | Automatisé, Pair | Non | Non | ||||||
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Disscussion about technical and content related isssues Students are given information in LMS and then they can ask questions. |
60 min | Discussion | En ligne | Asynchrone | Enseignant non présent | Non | Oui | Enseignant, Pair | Non | Non | ||||||
| Charge totale de l'unité | 4.33h | |||||||||||||||
| Monthly test (kolokvij) | ||||||||||||||||
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Test The test is prepared in hybrid delivery mode using individualised assignments from the databases in LMS. |
90 min | Évaluation | Hybride | Synchrone | Enseignant présent | Non | Non | Enseignant, Automatisé | Non | 20 | Sommative | Enseignant, Automatisé | ||||
| Charge totale de l'unité | 1.5h | |||||||||||||||
| Analysis of the test | ||||||||||||||||
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Students' feedback A questionnaire with open and closed questions is used. Students give feedback to teachers (technical and content wise). |
20 min | Discussion | En ligne | Asynchrone | Enseignant non présent | Non | Non | Non | Non | Non | ||||||
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Analysis of the test Reliability, validity, students' satisfaction survey, explaining solutions |
45 min | Discussion | Hybride | Synchrone | Enseignant présent | Non | Non | Enseignant | Non | Non | ||||||
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Further student investigation Students investigate application areas of mathematics learned. |
90 min | Investigation | En ligne | Asynchrone | Enseignant non présent | Oui | Oui | Pair | Non | Non | ||||||
| Charge totale de l'unité | 2.58h | |||||||||||||||
| Charge totale du cours | 138.66h | |||||||||||||||
