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--- training:engineering:propulsion:course_1 [2023/08/27 12:34] – created wikiadmin
+++ training:engineering:propulsion:course_1 [2023/08/27 13:08] (current) – wikiadmin
@@ Line 6: / Line 6: @@
 **Week 1: Introduction to Propulsion Systems**
-Lecture 1: Introduction to propulsion systems and their significance in aerospace and engineering.
+Lecture 1: [[training:engineering:propulsion:introduction_to_propulsion|Introduction to propulsion systems and their significance in aerospace and engineering.]]
-Lecture 2: Basic principles of propulsion: Newton's laws, conservation of momentum, and thrust generation.
+Lecture 2: [[training:engineering:propulsion:basic_principles_of_propulsion|Basic principles of propulsion: Newton's laws, conservation of momentum, and thrust generation.]]
-Lecture 3: Overview of different types of propulsion systems: rockets, jet engines, and propellers.
+Lecture 3: [[training:engineering:propulsion:overview_of_different_types_of_propulsion_systems|Overview of different types of propulsion systems: rockets, jet engines, and propellers.]]
 **Week 2-3: Rocket Propulsion**
-Lecture 4: Rocket propulsion principles: reaction mass, thrust equation, and specific impulse.
+Lecture 4: [[training:engineering:propulsion:rocket_propulsion_principles|Rocket propulsion principles: reaction mass, thrust equation, and specific impulse.]]
+[[training:engineering:propulsion:types_of_rocket_engines|
+Lecture 5: Types of rocket engines: liquid-propellant rockets vs. solid-propellant rockets.]]
-Lecture 5: Types of rocket engines: liquid-propellant rockets vs. solid-propellant rockets.
+Lecture 6: [[training:engineering:propulsion:rocket_engine_components|Rocket engine components: combustion chambers, nozzles, and turbopumps.]]
-Lecture 6: Rocket engine components: combustion chambers, nozzles, and turbopumps.
+Lecture 7: [[training:engineering:propulsion:propellant_chemistry|Propellant chemistry and combustion processes in rocket engines.]]
-Lecture 7: Propellant chemistry and combustion processes in rocket engines.
+Lecture 8: [[training:engineering:propulsion:rocket_staging|Rocket staging and multi-stage rockets.]]
-Lecture 8: Rocket staging and multi-stage rockets.
+Lecture 9: [[training:engineering:propulsion:propellant_choices|Practical considerations: propellant choices, efficiency, and payload fraction.]]
-Lecture 9: Practical considerations: propellant choices, efficiency, and payload fraction.
 **Week 4-5: Jet Engine Fundamentals**
-Lecture 10: Basics of jet propulsion and the Brayton cycle.
+Lecture 10: [[training:engineering:propulsion:brayton_cycle|Basics of jet propulsion and the Brayton cycle.]]
-Lecture 11: Types of jet engines: turbojet, turbofan, turboprop, and ramjet.
+Lecture 11: [[training:engineering:propulsion:types_of_jet_engines|Types of jet engines: turbojet, turbofan, turboprop, and ramjet.]]
-Lecture 12: Compressors and turbines in jet engines: working principles and efficiency.
+Lecture 12: [[training:engineering:propulsion:compressors_and_turbines|Compressors and turbines in jet engines: working principles and efficiency.]]
-Lecture 13: Combustion processes in jet engines and emission control.
+Lecture 13: [[training:engineering:propulsion:combustion_processes|Combustion processes in jet engines and emission control.]]
-Lecture 14: Nozzle designs and their impact on jet engine performance.
+Lecture 14: [[training:engineering:propulsion:nozzle_designs|Nozzle designs and their impact on jet engine performance.]]
-Lecture 15: Inlets and air intake design considerations.
+Lecture 15: [[training:engineering:propulsion:inlets|Inlets and air intake design considerations.]]
 **Week 6-7: Aircraft Propulsion Systems**
-Lecture 16: Introduction to aircraft propulsion: historical perspective and current trends.
+Lecture 16: [[training:engineering:propulsion:aircraft_propulsion|Introduction to aircraft propulsion: historical perspective and current trends.]]
-Lecture 17: Design considerations for aircraft engines: thrust-to-weight ratio, specific fuel consumption, and altitude performance.
+Lecture 17: [[training:engineering:propulsion:aircraft_engines|Design considerations for aircraft engines: thrust-to-weight ratio, specific fuel consumption, and altitude performance.]]
-Lecture 18: Aerodynamics of air-breathing engines: compression, combustion, and exhaust processes.
+Lecture 18: [[training:engineering:propulsion:air-breathing_engines|Aerodynamics of air-breathing engines: compression, combustion, and exhaust processes.]]
-Lecture 19: Noise reduction strategies in aircraft engines.
+Lecture 19: [[training:engineering:propulsion:noise_reduction|Noise reduction strategies in aircraft engines.]]
-Lecture 20: Emerging technologies in aircraft propulsion: electric and hybrid propulsion.
+Lecture 20: [[training:engineering:propulsion:emerging_technologies_in_aircraft_propulsion|Emerging technologies in aircraft propulsion: electric and hybrid propulsion.]]
 **Week 8-9: Propeller Propulsion and Turboprops**
-Lecture 21: Propeller propulsion principles and propeller efficiency.
+Lecture 21: [[training:engineering:propulsion:propeller_propulsion|Propeller propulsion principles and propeller efficiency.]]
-Lecture 22: Blade element theory and propeller performance analysis.
+Lecture 22: [[training:engineering:propulsion:blade_element_theory|Blade element theory and propeller performance analysis.]]
-Lecture 23: Propeller design considerations: pitch, diameter, and number of blades.
+Lecture 23: [[training:engineering:propulsion:propeller_design|Propeller design considerations: pitch, diameter, and number of blades.]]
-Lecture 24: Turboprop engines: working principles and advantages.
+Lecture 24: [[training:engineering:propulsion:turboprop_engines|Turboprop engines: working principles and advantages.]]
-Lecture 25: Applications of turboprop engines in aviation and aerospace.
+Lecture 25: [[training:engineering:propulsion:applications_of_turboprop_engines|Applications of turboprop engines in aviation and aerospace.]]
 **Week 10-11: Space Propulsion Systems**
-Lecture 26: Electric propulsion: ion thrusters, Hall-effect thrusters, and their advantages in space missions.
+Lecture 26: [[training:engineering:propulsion:electric_propulsion|Electric propulsion: ion thrusters, Hall-effect thrusters, and their advantages in space missions.]]
-Lecture 27: Chemical propulsion for space exploration: liquid bipropellant and monopropellant engines.
+Lecture 27: [[training:engineering:propulsion:chemical_propulsion|Chemical propulsion for space exploration: liquid bipropellant and monopropellant engines.]]
-Lecture 28: Solar sails and their potential for interplanetary travel.
+Lecture 28: [[training:engineering:propulsion:solar_sails|Solar sails and their potential for interplanetary travel.]]
-Lecture 29: Nuclear propulsion concepts and their challenges.
+Lecture 29: [[training:engineering:propulsion:nuclear_propulsion|Nuclear propulsion concepts and their challenges.]]
-Lecture 30: Propulsion systems for satellite station-keeping and orbital maneuvers.
+Lecture 30: [[training:engineering:propulsion:propulsion_systems_for_satellites|Propulsion systems for satellite station-keeping and orbital maneuvers.]]
 **Week 12: Future Trends and Applications**
-Lecture 31: Advanced propulsion concepts: antimatter propulsion, warp drives, and speculative ideas.
+Lecture 31: [[training:engineering:propulsion:advanced_propulsion_concepts|Advanced propulsion concepts: antimatter propulsion, warp drives, and speculative ideas.]]
-Lecture 32: Sustainable propulsion technologies and environmental impact.
+Lecture 32: [[training:engineering:propulsion:sustainable_propulsion|Sustainable propulsion technologies and environmental impact.]]
-Lecture 33: Integrating propulsion systems with modern aerospace design.
+Lecture 33: [[training:engineering:propulsion:integrating_propulsion_systems|Integrating propulsion systems with modern aerospace design.]]
 Lecture 34: Case studies: Successful propulsion systems in past and current space missions.
@@ Line 90: / Line 90: @@
 **Week 13: Review and Applications**
-Lecture 36: Review of key concepts and principles covered in the course.
+Lecture 36: [[training:engineering:propulsion:review_of_key_concepts|Review of key concepts and principles covered in the course.]]
-Lecture 37: Real-world applications and industry perspectives on propulsion.
+Lecture 37: [[training:engineering:propulsion:real_world_applications|Real-world applications and industry perspectives on propulsion.]]
 Lecture 38: Student presentations on a chosen propulsion topic or technology.