Analytical Geometry & Linear Algebra – I

• Course name: Analytical Geometry & Linear Algebra – I
• Code discipline:
• Subject area: ['fundamental principles of vector algebra,', 'concepts of basic geometry objects and their transformations in the plane and in the space']

Short Description

Prerequisites

Prerequisite subjects

Prerequisite topics

Course Topics

Intended Learning Outcomes (ILOs)

What is the main purpose of this course?

This is an introductory course in analytical geometry and linear algebra. After having studied the course, students get to know fundamental principles of vector algebra and its applications in solving various geometry problems, different types of equations of lines and planes, conics and quadric surfaces, transformations in the plane and in the space. An introduction on matrices and determinants as a fundamental knowledge of linear algebra is also provided.

ILOs defined at three levels

Level 1: What concepts should a student know/remember/explain?

By the end of the course, the students should be able to ...

• List basic notions of vector algebra,
• recite the base form of the equations of transformations in planes and spaces,
• recall equations of lines and planes,
• identify the type of conic section,
• recognize the kind of quadric surfaces.

Level 2: What basic practical skills should a student be able to perform?

By the end of the course, the students should be able to ...

• explain the geometrical interpretation of the basic operations of vector algebra,
• restate equations of lines and planes in different forms,
• interpret the geometrical meaning of the conic sections in the mathematical expression,
• give the examples of the surfaces of revolution,
• understand the value of geometry in various fields of science and techniques.

Level 3: What complex comprehensive skills should a student be able to apply in real-life scenarios?

By the end of the course, the students should be able to ...

• Perform the basic operations of vector algebra,
• use different types of equations of lines and planes to solve the plane and space problems,
• represent the conic section in canonical form,
• compose the equation of quadric surface.

Grading

Course grading range

Course activities and grading breakdown

Recommendations for students on how to succeed in the course

Resources, literature and reference materials

Open access resources

Closed access resources

Software and tools used within the course

Teaching Methodology: Methods, techniques, & activities

Activities and Teaching Methods

Formative Assessment and Course Activities

Ongoing performance assessment

Section 1

Activity Type	Content	Is Graded?
Question	How to perform the shift of the vector?	1
Question	What is the geometrical interpretation of the dot product?	1
Question	How to determine whether the vectors are linearly dependent?	1
Question	What is a vector basis?	1
Question	Evaluate ${\displaystyle {\textstyle |{\textbf {a}}|^{2}-2{\sqrt {3}}{\textbf {a}}\cdot {\textbf {b}}-7|{\textbf {b}}|^{2}}}$ given that ${\displaystyle {\textstyle |{\textbf {a}}|=4}}$ , ${\displaystyle {\textstyle |{\textbf {b}}|=1}}$ , ${\displaystyle {\textstyle \angle ({\textbf {a}},\,{\textbf {b}})=150^{\circ }}}$	0
Question	Prove that vectors ${\displaystyle {\textstyle {\textbf {b}}({\textbf {a}}\cdot {\textbf {c}})-{\textbf {c}}({\textbf {a}}\cdot {\textbf {b}})}}$ and ${\displaystyle {\textstyle {\textbf {a}}}}$ are perpendicular to each other	0
Question	Bases ${\displaystyle {\textstyle AD}}$ and ${\displaystyle {\textstyle BC}}$ of trapezoid ${\displaystyle {\textstyle ABCD}}$ are in the ratio of ${\displaystyle {\textstyle 4:1}}$ The diagonals of the trapezoid intersect at point ${\displaystyle {\textstyle M}}$ and the extensions of sides ${\displaystyle {\textstyle AB}}$ and ${\displaystyle {\textstyle CD}}$ intersect at point ${\displaystyle {\textstyle P}}$ Let us consider the basis with ${\displaystyle {\textstyle A}}$ as the origin, ${\displaystyle {\textstyle {\overrightarrow {AD}}}}$ and ${\displaystyle {\textstyle {\overrightarrow {AB}}}}$ as basis vectors Find the coordinates of points ${\displaystyle {\textstyle M}}$ and ${\displaystyle {\textstyle P}}$ in this basis	0
Question	A line segment joining a vertex of a tetrahedron with the centroid of the opposite face (the centroid of a triangle is an intersection point of all its medians) is called a median of this tetrahedron Using vector algebra prove that all the four medians of any tetrahedron concur in a point that divides these medians in the ratio of ${\displaystyle {\textstyle 3:1}}$ , the longer segments being on the side of the vertex of the tetrahedron	0