Learning Outcomes	1-Interpret the philosophy of terminology and ergonomics. 2-Simvatology explains the concepts of complexity, compatibility, chaos, entropy. 3-Defines international institutions and organizations such as BCPE, CPE, AEP, CREE, HSIT and IEA. 4-Explains the physical, cognitive and organizational components of ergonomics as well as hardware, environmental, cognitive, business design and macro components. 5-Analyzes the relation between the concepts of labor force, business regulation, productivity concepts and ergonomics.

Prerequisites	-
Language of Instruction	Turkish
Responsible	Assoc. Prof. Dr. Ercüment N. DİZDAR
Instructors	-
Assistants	-
Resources	R1. Dizdar, E. N. (2008). Ergonomi, ABP.
Supplementary Book	SR1. Dizdar, E. N. (2000). İş Güvenliği, Alver. SR2. Dizdar, E. N. (2003). İş Güvenliği, Dilara. SR3. Dizdar, E. N. (2004). İş Hukuku, Dilara. SR4. Dizdar, E. N. (2004). Uygulamalı Olasılık ve İstatistik, ABP. SR5. Dizdar, E. N. (2006). Toplam Ergonomi, ZKU. SR6. Dizdar, E. N. (2008). İş Güvenliği, Murathan (4. Baskı). SR7. Dizdar, E. N. (2010). İş Sağlığı ve Güvenliğine Giriş, KBU. SR8. Dizdar, E. N. (2014). Toplam İş Güvenliği, KBU. SR9. Dizdar, E. N. (1998). Üretim Sistemlerinde Olası İş Kazaları İçin Bir Erken Uyarı Modeli, Gazi Üniversitesi, Endüstri Mühendisliği (Doktora Tezi)
Goals	Understanding the basic concepts of ergonomics and its purpose, scope and philosophy. Understanding macro and macro ergonomic approaches. Understand the national and international committees and communities of ergonomics. Understanding of the components of the ergonomics created by IEA and HSIT. Understanding of the concept of workforce, work regulation, productivity calculations and fatigue. Understanding of energy consumption values. Learning the concepts of load, fatigue, fatigue, discomfort and rest periods and breaks.
Content	Introduction to ergonomics. Basic concepts. Purpose, scope of ergonomics. Ergonomic philosophy. Ergonomics and simvatology. Ergonomics, complexity and compatibility, chaos, entropy. Micro and macro ergonomics approaches and classifications. History of ergonomics. Ergonomide important national and international boards and communities. BCPE, CPE, AEP, CREE, IEA, HSIT. IEA Components of ergonomics, physical, cognitive and organizational ergonomics. HSIT Ergonomics components. Hardware, environmental, cognitive, business design and macro ergonomics. Labor concept, work organization, productivity. Body, muscles and tendons. Energy requirement and account. Fatigue, ATP, ADP, anerobic energy, erobic capacity. Static and dynamic muscle contractions, muscular fatigue, local muscular fatigue, central nervous system. The effects of muscle fiber type on muscular fatigue. Muscle lower speed-power relationship. Fatigue in motor-endplate and contractile mechanics. Lactic acid, ATP and PC, muscle, glycogen stores. The energy consumption figures are the amount of calories consumed. Load, fatigue, exhaustion, discomfort. Fatigue, recovery, pulse, oxygen requirement, heart rhythm. Resting, types of rest, time and rest of rest, active and passive rest. Sleep and sleep. Calculation of rest periods, Lehman, Murrell, American rest time calculations. Rest break breaks. Active moors.