Akademik Dersler - İçerik

0 : Does not support 1 : Low-level support 2 : Mid-level support 3 : Top level support

Learning Outcomes	1	2	3	4	5	6	7	8
. Introduction to Rocket Technology: History and Basic Concepts\n• Students will be able to explain the history and development of rocket technology.\n• Students will be able to define basic concepts related to rockets.\n• Students will understand the relationship between space science and rockets.\n2. Fundamental Components and Structure of Rockets\n• Students will be able to identify the main components of rockets (body, engine, fuel tank, etc.).\n• Students will explain the basic design principles of rocket structure.\n• Students will distinguish the functions of rocket components.\n3. Rocket Engines: Types and Working Principles\n• Students will be able to explain the basic working principles of rocket engines.\n• Students will identify the differences between solid and liquid fuel engines.\n• Students will understand the thrust production mechanism.\n4. Rocket Propellants: Solid, Liquid, and Hybrid Fuels\n• Students will classify types of rocket propellants.\n• Students will explain the advantages and disadvantages of each fuel type.\n• Students will understand the role of propellants in rocket engines.\n5. Thrust and Laws of Motion: Introduction to Basic Physics\n• Students will explain Newton\'s laws of motion in the context of rockets.\n• Students will define the concept of thrust in rockets.\n• Students will analyze the effects of motion laws on rocket flight.\n6. Rocket Aerodynamics and Flight Dynamics\n• Students will explain basic concepts related to rocket aerodynamics.\n• Students will describe the effects of drag and air resistance on rocket flight.\n• Students will understand the principles of flight dynamics.\n7. Rocket Orbits and Orbital Mechanics\n• Students will define fundamental orbit concepts.\n• Students will explain principles of orbital mechanics.\n• Students will analyze rocket entry into orbit and orbital movement.\n	3	3	3	3	3	3	3	3