Basic studies in mathematicsLaajuus (3 cr)
Code: AT00CH47
Credits
3 op
Teaching language
- English
Objective
Student is able to
- calculate and simulate mathematical expressions
- solve geometric and trigonometric problems
- knows bacis of vectors in plane
Enrollment
06.05.2024 - 30.08.2024
Timing
01.08.2024 - 31.12.2024
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Faculty of Technology (LAB)
Campus
Lahti Campus
Teaching languages
- English
Degree programmes
- Bachelor’s Degree Programme in Sustainable Construction Technology
Teachers
- Arttu Siukola
Scheduling groups
- Luennot (Size: 0. Open UAS: 0.)
Groups
-
TLTISCT24SBachelor’s Degree Programme in Sustainable Construction Technology 24S Lahti
Small groups
- Lecture
Learning outcomes
Student is able to
- calculate and simulate mathematical expressions
- solve geometric and trigonometric problems
- knows bacis of vectors in plane
Implementation and methods of teaching
This course has lectures 4h/week.
Learning material and recommended literature
All material will be in moodle.
Alternative completion methods
Will be informed at the beginning of the course.
Learning environment
The course consists of contact teaching and individual work. We use the Moodle environment.
Contents
- Manipulating expressions
- Percentages
- Linear and quadratic equations
- Pair of equations
- Basic trigonometry
- 2D geometry
- 2D vectors
Assessment scale
1-5
Failed (0)
The student can not solve mathematical problems posed by the teacher.
Assessment criteria: level 1 (assessment scale 1–5)
The student knows the methods the methods of 2d geometry and 2d vectors, and is able to solve simple mechanical problems
Assessment criteria: level 3 (assessment scale 1–5)
The student understands the requirements of 2d geometry and 2d vectors, and is able to apply basic mathematics in engineering.
Assessment criteria: level 5 (assessment scale 1–5)
The student masters the methods of 2d geometry and 2d vectors and is able to analyse mathematical tasks in engineering without problems.
Enrollment
06.05.2024 - 30.08.2024
Timing
09.09.2024 - 20.12.2024
Number of ECTS credits allocated
3 op
Virtual portion
3 op
Mode of delivery
Distance learning
Unit
Faculty of Technology (LAB)
Campus
E-campus
Teaching languages
- English
Degree programmes
- Bachelor’s Degree Programme in Sustainable Solutions Engineering
Teachers
- Päivi Porras
Scheduling groups
- Online lecture (Size: 0. Open UAS: 0.)
Groups
-
TLTISSE24SVBachelor’s Degree Programme in Sustainable Solutions Engineering 24SV Lahti
Small groups
- Online lecture
Learning outcomes
Student is able to
- calculate and simulate mathematical expressions
- solve geometric and trigonometric problems
- knows bacis of vectors in plane
Implementation and methods of teaching
This course has online lectures.
The course is structured so that it can be studied at your own pace. It is possible to pass the course just solving exercises but higher grades (3-5) requires enough points from applied test. Applied test can can be only once, but the date can be your own choice (before end of course).
Lectures are on Mondays and Thursdays at 12:15am - 1.45pm.
Learning material and recommended literature
All material will be in moodle.
Alternative completion methods
Will be informed at the beginning of the course.
Learning environment
The course consists of contact teaching and individual work. We use the Moodle environment.
Contents
- Manipulating expressions
- Percentages
- Linear and quadratic equations
- Pair of equations
- Basic trigonometry
- 2D geometry
- 2D vectors
Assessment scale
1-5
Failed (0)
The student can not solve mathematical problems posed by the teacher. Less than 33% from maximum scores.
Assessment criteria: level 1 (assessment scale 1–5)
The student knows the methods the methods of 2d geometry and 2d vectors, and is able to solve simple mechanical problems
Assessment criteria: level 3 (assessment scale 1–5)
The student understands the requirements of 2d geometry and 2d vectors, and is able to apply basic mathematics in engineering. Less than 57% from maximum scores.
Assessment criteria: level 5 (assessment scale 1–5)
The student masters the methods of 2d geometry and 2d vectors and is able to analyse mathematical tasks in engineering without problems. At least 83% from maximum scores.
Enrollment
06.05.2024 - 30.08.2024
Timing
02.09.2024 - 13.12.2024
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Faculty of Technology (LAB)
Campus
Lahti Campus
Teaching languages
- English
Degree programmes
- Bachelor's Degree Programme in Industrial Information Technology
Teachers
- Juha Hyytiäinen
Scheduling groups
- Luennot 1 (Size: 500. Open UAS: 0.)
Groups
-
TLTIIIT24SBachelor's Degree Programme in Industrial Information Technology 24S Lahti
Small groups
- Lecture 1
Learning outcomes
Student is able to
- calculate and simulate mathematical expressions
- solve geometric and trigonometric problems
- knows bacis of vectors in plane
Implementation and methods of teaching
This course tests student prior math level. One can take exam right at the start of the course or after independent studies at the end of the semester. There is a possibility for Q&A sessions in Zoom if so needed and agreed.
Learning material and recommended literature
WWW sources, more detailed information in Moodle.
Learning environment
The course consists of an exam that can be done right at the beginning of the course or after independent study with the materials mentioned in Moodle. Course involves using Wolfram Alpha in problem solving. Possible intensive study sessions if needed and so agreed.
Contents
- Basics of SI-system
- Percentages
- Manipulating expressions
- 1st order function, 2nd order function
- Pair of equations
- Verbal problems
- Right triangle, the law of sines and cosines
- 2D geometry
- 2D vectors
Assessment scale
1-5
Failed (0)
The student doesn't pass the exam.
Assessment criteria: level 1 (assessment scale 1–5)
The student has basic knowledge of the course topics and is able to solve simple problems.
Assessment criteria: level 3 (assessment scale 1–5)
The student understands the course topics.
Assessment criteria: level 5 (assessment scale 1–5)
The student can calculate and use simulation tools to solve mathematical tasks in engineering.
Enrollment
15.05.2023 - 01.09.2023
Timing
04.09.2023 - 31.12.2023
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Faculty of Technology (LAB)
Campus
Lappeenranta Campus
Teaching languages
- English
Degree programmes
- Bachelor's Degree Programme in Industrial Information Technology
Teachers
- Päivi Porras
Scheduling groups
- Luennot 1 (Size: 0. Open UAS: 0.)
Groups
-
TLPRIIT23S
-
TLPREX23SI
Small groups
- Lecture 1
Learning outcomes
Student is able to
- calculate and simulate mathematical expressions
- solve geometric and trigonometric problems
- knows bacis of vectors in plane
Implementation and methods of teaching
Lectures and excercises
Alternative completion methods
Will be informed at the beginning of the course.
Learning environment
The course consists of contact teaching and individual work. We use the Moodle environment.
Additional information for students: previous knowledge etc.
- SI system
- Percentages, polynomial equations (1. and 2. degree), systems of two linear equations: word problems
- Basics of trigonometry (right-angled triangle, non-right angled triangle, unit circle)
- Geometry in plane
- Vectors in plane
Assessment criteria
Exercises and an applied test.
Assessment scale
1-5
Failed (0)
A student cannot solve mechanical exercises well enough. Less than 33% of maximum scores.
Assessment criteria: level 1 (assessment scale 1–5)
A student knows methods for geometry in plain and for vectors in plain and can solve simple mechanical exercises.
Assessment criteria: level 3 (assessment scale 1–5)
A student understands requirements of geometry and vectors in plain and is able to apply them in some extent in engineering problems. At least 57% of maximum scores.
Assessment criteria: level 5 (assessment scale 1–5)
The student masters the methods of 2d geometry and 2d vectors and is able to analyze mathematical tasks in engineering without problems. At least 83% of maximum scores.
Enrollment
15.05.2023 - 01.09.2023
Timing
01.08.2023 - 31.12.2023
Number of ECTS credits allocated
3 op
Virtual portion
3 op
Mode of delivery
Distance learning
Unit
Faculty of Technology (LAB)
Campus
E-campus, Lahti
Teaching languages
- English
Seats
1 - 100
Degree programmes
- Bachelor’s Degree Programme in Sustainable Solutions Engineering
Teachers
- Päivi Porras
Scheduling groups
- Online lectures (Size: 0. Open UAS: 0.)
Groups
-
TLTISSE23SVBachelor’s Degree Programme in Sustainable Solutions Engineering 23SV Lahti
Small groups
- Online lectures
Learning outcomes
Student is able to
- calculate and simulate mathematical expressions
- solve geometric and trigonometric problems
- knows bacis of vectors in plane
Implementation and methods of teaching
This course has online lectures.
The course is structured so that it can be studied at your own pace. It is possible to pass the course just solving exercises but higher grades (3-5) requires enough points from applied test. Applied test can can be only once, but the date can be your own choice (before end of course).
Lectures are on Mondays and Thursdays at 12:15am - 1.45pm.
Learning material and recommended literature
All material will be in moodle.
Alternative completion methods
Will be informed at the beginning of the course.
Learning environment
The course consists of contact teaching and individual work. We use the Moodle environment.
Contents
- Manipulating expressions
- Percentages
- Linear and quadratic equations
- Pair of equations
- Basic trigonometry
- 2D geometry
- 2D vectors
Assessment scale
1-5
Failed (0)
The student can not solve mathematical problems posed by the teacher. Less than 33% from maximum scores.
Assessment criteria: level 1 (assessment scale 1–5)
The student knows the methods the methods of 2d geometry and 2d vectors, and is able to solve simple mechanical problems
Assessment criteria: level 3 (assessment scale 1–5)
The student understands the requirements of 2d geometry and 2d vectors, and is able to apply basic mathematics in engineering. Less than 57% from maximum scores.
Assessment criteria: level 5 (assessment scale 1–5)
The student masters the methods of 2d geometry and 2d vectors and is able to analyse mathematical tasks in engineering without problems. At least 83% from maximum scores.
Enrollment
15.05.2023 - 01.09.2023
Timing
01.08.2023 - 31.12.2023
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Faculty of Technology (LAB)
Campus
Lappeenranta Campus
Teaching languages
- English
Seats
1 - 100
Degree programmes
- Bachelor’s Degree Programme in Industrial Mechanical Engineering
Teachers
- Timo Ryynänen
- Seppo Toivanen
Scheduling groups
- Lectures (Size: 0. Open UAS: 0.)
Groups
-
TLPRMEC23S
-
TLPREX23SM
Small groups
- Lectures
Learning outcomes
Student is able to
- calculate and simulate mathematical expressions
- solve geometric and trigonometric problems
- knows bacis of vectors in plane
Implementation and methods of teaching
Lectures and excercises
Alternative completion methods
Will be informed at the beginning of the course.
Learning environment
The course consists of contact teaching and individual work. We use the Moodle environment.
Additional information for students: previous knowledge etc.
- SI system
- Percentages, polynomial equations (1. and 2. degree), systems of two linear equations: word problems
- Basics of trigonometry (right-angled triangle, non-right angled triangle, unit circle)
- Geometry in plain
- Vectors in plain
Assessment criteria
Exercises and an applied test.
Assessment scale
1-5
Failed (0)
A student cannot solve mechanical exercises well enough. Less than 33% of maximum scores.
Assessment criteria: level 1 (assessment scale 1–5)
A student knows methods for geometry in plain and for vectors in plain and can solve simple mechanical exercises.
Assessment criteria: level 3 (assessment scale 1–5)
A student understands requirements of geometry and vectors in plain and is able to apply them in some extent in engineering problems. At least 57% of maximum scores.
Assessment criteria: level 5 (assessment scale 1–5)
The student masters the methods of 2d geometry and 2d vectors and is able to analyze mathematical tasks in engineering without problems. At least 83% of maximum scores.
Enrollment
01.07.2022 - 04.09.2022
Timing
05.09.2022 - 16.12.2022
Number of ECTS credits allocated
3 op
Virtual portion
3 op
Mode of delivery
Distance learning
Unit
Faculty of Technology (LAB)
Campus
E-campus, Lahti
Teaching languages
- English
Degree programmes
- Bachelor’s Degree Programme in Sustainable Solutions Engineering
Teachers
- Tiina Valkonen
Scheduling groups
- Verkkoluento (Size: 0. Open UAS: 0.)
Groups
-
TLTISSE22SV
Small groups
- Verkkoluento 1
Learning outcomes
Student is able to
- calculate and simulate mathematical expressions
- solve geometric and trigonometric problems
- knows bacis of vectors in plane
Implementation and methods of teaching
This course has online lectures on Wednesdays at 10am-12am and Thursdays at 2pm -4pm.
The course is structured so that it can be studied at your own pace. It is possible to pass the course just solving exercises but higher grades (3-5) requires enough points from applied test. Applied test can can be only once, but the date can be your own choice (before end of course).
Learning material and recommended literature
All material will be in moodle.
Alternative completion methods
Will be informed at the beginning of the course.
Learning environment
The course consists of contact teaching and individual work. We use the Moodle environment.
Contents
- Manipulating expressions
- Percentages
- Linear and quadratic equations
- Pair of equations
- Basic trigonometry
- 2D geometry
- 2D vectors
Assessment scale
1-5
Failed (0)
The student can not solve mathematical problems posed by the teacher. Less than 33% from maximum scores.
Assessment criteria: level 1 (assessment scale 1–5)
The student knows the methods the methods of 2d geometry and 2d vectors, and is able to solve simple mechanical problems
Assessment criteria: level 3 (assessment scale 1–5)
The student understands the requirements of 2d geometry and 2d vectors, and is able to apply basic mathematics in engineering. Less than 57% from maximum scores.
Assessment criteria: level 5 (assessment scale 1–5)
The student masters the methods of 2d geometry and 2d vectors and is able to analyse mathematical tasks in engineering without problems. At least 83% from maximum scores.
Enrollment
01.07.2022 - 04.09.2022
Timing
29.08.2022 - 16.12.2022
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Faculty of Technology (LAB)
Campus
Lappeenranta Campus
Teaching languages
- English
Degree programmes
- Bachelor's Degree Programme in Industrial Information Technology
Teachers
- Tommi Veijalainen
- Juha Hyytiäinen
Scheduling groups
- Luennot 1 (Size: 0. Open UAS: 0.)
Groups
-
TLPRIIT22S
Small groups
- Luennot 1
Learning outcomes
Student is able to
- calculate and simulate mathematical expressions
- solve geometric and trigonometric problems
- knows bacis of vectors in plane
Implementation and methods of teaching
Exam, two possibilities; intensive study session in zoom if needed.
Learning material and recommended literature
Moodle - will be informed at the beginning of the course.
Learning environment
The course consists of an exam with two trials and self-study in moodle. Course involves using Wolfram Alpha in problem solving. Possible intensive study session if needed.
Contents
- Basics of SI-system
- Percentages
- Manipulating expressions
- 1st order function, 2nd order function
- Pair of equations
- Verbal problems
- Right triangle, the law of sines and cosines
- 2D geometry
- 2D vectors
Assessment scale
1-5
Failed (0)
The student doesn't pass the exam.
Assessment criteria: level 1 (assessment scale 1–5)
The student has basic knowledge of the course topics and is able to solve simple problems.
Assessment criteria: level 3 (assessment scale 1–5)
The student understands the course topics.
Assessment criteria: level 5 (assessment scale 1–5)
The student can calculate and use simulation tools to solve mathematical tasks in engineering.
Enrollment
01.07.2022 - 04.09.2022
Timing
29.08.2022 - 16.12.2022
Number of ECTS credits allocated
3 op
Mode of delivery
Contact teaching
Unit
Faculty of Technology (LAB)
Campus
Lappeenranta Campus
Teaching languages
- English
Degree programmes
- Bachelor’s Degree Programme in Mechanical Engineering (2021, 2022, 2023)
Teachers
- Päivi Porras
Scheduling groups
- Lectures (Size: 0. Open UAS: 0.)
Groups
-
TLPRMEC22S
Small groups
- Lectures
Learning outcomes
Student is able to
- calculate and simulate mathematical expressions
- solve geometric and trigonometric problems
- knows bacis of vectors in plane
Implementation and methods of teaching
Lectures and excercises
Alternative completion methods
Will be informed at the beginning of the course.
Learning environment
The course consists of contact teaching and individual work. We use the Moodle environment.
Additional information for students: previous knowledge etc.
- SI system
- Percentages, polynomial equations (1. and 2. degree), systems of two linear equations: word problems
- Basics of trigonometry (right-angled triangle, non-right angled triangle, unit circle)
- Geometry in plain
- Vectors in plain
Assessment criteria
Exercises and an applied test.
Assessment scale
1-5
Failed (0)
A student cannot solve mechanical exercises well enough. Less than 33% of maximum scores.
Assessment criteria: level 1 (assessment scale 1–5)
A student knows methods for geometry in plain and for vectors in plain and can solve simple mechanical exercises.
Assessment criteria: level 3 (assessment scale 1–5)
A student understands requirements of geometry and vectors in plain and is able to apply them in some extent in engineering problems. At least 57% of maximum scores.
Assessment criteria: level 5 (assessment scale 1–5)
The student masters the methods of 2d geometry and 2d vectors and is able to analyze mathematical tasks in engineering without problems. At least 83% of maximum scores.