ISTANBUL OKAN UNIVERSITY INFORMATION PACKAGE / COURSE CATALOGUE
FNCE304 Investment and Portfolio Management
Istanbul Okan University
Degree Programs
Mechanical Engineering (English)
General Information For Students
Diploma SupplementErasmus Policy Statement
National Qualifications
Mechanical Engineering (English)
Bachelor TR-NQF-HE: Level 6 QF-EHEA: First Cycle EQF-LLL: Level 6

General course introduction information

Course Code: FNCE304
Course Name: Investment and Portfolio Management
Course Semester: Fall
Course Credits:
Theoretical Practical Credit ECTS
3 0 3 6
Language of instruction: EN
Course Requisites:
Does the Course Require Work Experience?: No
Type of course: Compulsory
Course Level:
Bachelor TR-NQF-HE:6. Master`s Degree QF-EHEA:First Cycle EQF-LLL:6. Master`s Degree
Mode of Delivery: Face to face
Course Coordinator : Prof. Dr. GÖKÇE TUNÇ
Course Lecturer(s): Prof. Dr. GÖKÇE TUNÇ
Course Assistants:

Course Objective and Content

Course Objectives: The objective of this course is to introduce the specifics of investment environment; overview of financial instruments; security trading; initial public offerings; market orders; buying on margin; short sales; investment companies; open-end funds; closed-end funds; risk and return; risk premium; risk aversion; capital allocation line; portfolios of risky and risk-free assets; the capital market line; optimal risky portfolios; diversification; portfolios of two risky assets; minimum variance portfolio; the Markowitz portfolio selection; capital asset pricing model; arbitrage pricing theory; factor models; market efficiency; simulation application.
Course Content: Investment environment; overview of financial instruments; security trading; initial public offerings; market orders; buying on margin; short sales; investment companies; open-end funds; closed-end funds; risk and return; risk premium; risk aversion; capital allocation line; portfolios of risky and risk-free assets; the capital market line; optimal risky portfolios; diversification; portfolios of two risky assets; minimum variance portfolio; the Markowitz portfolio selection; capital asset pricing model; arbitrage pricing theory; factor models; market efficiency; simulation application.

Learning Outcomes

The students who have succeeded in this course;
Learning Outcomes
1 - Knowledge
Theoretical - Conceptual
1) • Discuss the financial environment in terms of portfolio management.
2) • Determine expected values and variances of financial assets and portfolios.
3) • Discuss whether the financial markets are efficient.
4) • Build a diversified portfolio and assess portfolio performance.
2 - Skills
Cognitive - Practical
3 - Competences
Communication and Social Competence
Learning Competence
Field Specific Competence
Competence to Work Independently and Take Responsibility

Lesson Plan

Week Subject Related Preparation
1) • Describe the course. • Differentiate real and financial assets. • Identify the relationship between financial markets and economy. • Explain the specifics of the Money Market • Explain the specifics of the Bond Market • Explain the specifics of the Equity Securities • Discuss the Stock and Bond Market Indexes • Explain the specifics of the Derivative Markets • Syllabus. • Recognize the informational role of Financial Markets • Discuss the consumption timing, allocation of risk, separation of ownership and management and corporate governance and corporate ethics with regard to investment environment. • Justify the the Investment Process. • Argue the the Risk–Return Trade-Off and Efficient Markets. • Discuss the Money Market and the Bond Market instruments. • Define options and futures contracts. NONE
2) • Explain how firms issue securities. • Argue how securities are traded. • Identify market structure in different countries. • Recognize the types of Investment Companies. • Explain the specifics of Mutual Funds. • Discuss the Investment Banking and Initial Public Offerings (IPOs). • Compare Direct Search Markets, Brokered Markets, Dealer Markets and Auction Markets. • Analyze type of orders (Market Orders / Price-Contingent Orders). • Discuss trading mechanisms. • Compare the important securities markets around the world. • Differentiate Buying on Margin and Short Sales. Review the Syllabus. Read, in Bodie-Kane-Marcus, chapters 1-2-3-4 on pages 1-116.
3) • Explain the determinants of the level of Interest Rates. • Compare the rates of return for different holding periods. • Identify risk and risk premiums. • Argue the time series analysis of past rates of return. • Justify the the normal distribution. • Evaluate the deviations from normality and risk measures. • Compare the historical returns on risky portfolios: equities and long-term government bonds. • Distinguish real and nominal rates of interest. • Analyze the effect of taxes on the real rate of interest. • Recognize annual percentage rates and identify continuous compounding. • Compute and evaluate Holding-Period Returns, Expected Return and Standard Deviation, Excess Returns and Risk Premiums. • Identify and analyze the the Reward-to-Volatility (Sharpe) Ratio. • Evaluate Value at Risk, Expected Shortfall, Lower Partial Standard Deviation and the Sortino Ratio meaures with regard to deviations of returns from normality. • Discuss the global view of the historical record on equities and long-term government bonds. Read, in Bodie-Kane-Marcus, chapter 5 on pages 117-159. Review the Lecture Notes.

Sources

Course Notes / Textbooks: INVESTMENTS
Zvi Bodie-Alex Kane-Alan J. Marcus, 9th ed., 2011
ISBN 978-0-07-353070-0
References: INVESTMENTS
Zvi Bodie-Alex Kane-Alan J. Marcus, 9th ed., 2011
ISBN 978-0-07-353070-0

Course-Program Learning Outcome Relationship

Learning Outcomes

1

2

3

4
Program Outcomes
1) Sufficient knowledge in mathematics, science and engineering related to their branches; and the ability to apply theoretical and practical knowledge in these areas to model and solve engineering problems.
2) The ability to identify, formulate, and solve complex engineering problems; selecting and applying appropriate analysis and modeling methods for this purpose.
3) The ability to design a complex system, process, device or product under realistic constraints and conditions to meet specific requirements; the ability to apply modern design methods for this purpose. (Realistic constraints and conditions include such issues as economy, environmental issues, sustainability, manufacturability, ethics, health, safety, social and political issues, according to the nature of design.)
4) Ability to develop, select and use modern techniques and tools necessary for engineering applications; ability to use information technologies effectively.
5) Ability to design experiments, conduct experiments, collect data, analyze and interpret results to examine engineering problems or discipline-specific research topics.
6) The ability to work effectively in disciplinary and multidisciplinary teams; individual work skill.
7) Effective communication skills in Turkish oral and written communication; at least one foreign language knowledge; ability to write effective reports and understand written reports, to prepare design and production reports, to make effective presentations, to give and receive clear and understandable instructions.
8) Awareness of the need for lifelong learning; access to knowledge, ability to follow developments in science and technology, and constant self-renewal.
9) Conform to ethical principles, and standards of professional and ethical responsibility; be informed about the standards used in engineering applications.
10) Awareness of applications in business, such as project management, risk management and change management; awareness of entrepreneurship, and innovation; information about sustainable development.
11) The ability to work effectively in disciplinary and multidisciplinary teams; individual work skill.
12) In order to gain depth at least one, physics knowledge based on chemistry knowledge and mathematics; advanced mathematical knowledge, including multivariable mathematical and differential equations; familiarity with statistics and linear algebra.
13) The ability to work in both thermal and mechanical systems, including the design and implementation of such systems.

Course - Learning Outcome Relationship

No Effect 1 Lowest 2 Low 3 Average 4 High 5 Highest
           
Program Outcomes Level of Contribution
1) Sufficient knowledge in mathematics, science and engineering related to their branches; and the ability to apply theoretical and practical knowledge in these areas to model and solve engineering problems.
2) The ability to identify, formulate, and solve complex engineering problems; selecting and applying appropriate analysis and modeling methods for this purpose.
3) The ability to design a complex system, process, device or product under realistic constraints and conditions to meet specific requirements; the ability to apply modern design methods for this purpose. (Realistic constraints and conditions include such issues as economy, environmental issues, sustainability, manufacturability, ethics, health, safety, social and political issues, according to the nature of design.)
4) Ability to develop, select and use modern techniques and tools necessary for engineering applications; ability to use information technologies effectively.
5) Ability to design experiments, conduct experiments, collect data, analyze and interpret results to examine engineering problems or discipline-specific research topics.
6) The ability to work effectively in disciplinary and multidisciplinary teams; individual work skill.
7) Effective communication skills in Turkish oral and written communication; at least one foreign language knowledge; ability to write effective reports and understand written reports, to prepare design and production reports, to make effective presentations, to give and receive clear and understandable instructions.
8) Awareness of the need for lifelong learning; access to knowledge, ability to follow developments in science and technology, and constant self-renewal.
9) Conform to ethical principles, and standards of professional and ethical responsibility; be informed about the standards used in engineering applications.
10) Awareness of applications in business, such as project management, risk management and change management; awareness of entrepreneurship, and innovation; information about sustainable development.
11) The ability to work effectively in disciplinary and multidisciplinary teams; individual work skill.
12) In order to gain depth at least one, physics knowledge based on chemistry knowledge and mathematics; advanced mathematical knowledge, including multivariable mathematical and differential equations; familiarity with statistics and linear algebra.
13) The ability to work in both thermal and mechanical systems, including the design and implementation of such systems.

Learning Activity and Teaching Methods

Individual study and homework
Group study and homework
Project preparation

Assessment & Grading Methods and Criteria

Written Exam (Open-ended questions, multiple choice, true-false, matching, fill in the blanks, sequencing)
Homework
Individual Project
Group project

Assessment & Grading

Semester Requirements Number of Activities Level of Contribution
Midterms 1 % 40
Final 1 % 60
total % 100
PERCENTAGE OF SEMESTER WORK % 40
PERCENTAGE OF FINAL WORK % 60
total % 100

Workload and ECTS Credit Grading

Activities Number of Activities Workload
Course Hours 16 48
Study Hours Out of Class 15 90
Homework Assignments 4 8
Quizzes 3 3
Midterms 1 10
Final 1 22
Total Workload 181