Courses

Aerospace and Aeronautical Engineering: Master the Mechanics of Airplanes - Aerodynamics, Flight Maneuvers, JET Engines What you'll learn: Understand the basics of Aerospace EngineeringIdentify the components of an Aircraft and their purposesUnderstand how Airplanes Fly and their key parametersIdentify the type of Aircraft suited for each missionDefine and propose your own AircraftUnderstand the basics of stability and Aircraft Design The Aerospace Engineering: Aircraft Fundamentals Course is a multidisciplinary course where you will study the aerodynamics, mechanics and engineering of Airplanes and Aircraft. My intention is that you fully understand the main topics regarding Design and Engineering of Aircraft and Airplanes. The structure of the Course is the following: IntroductionClassification of AirplanesAerodynamicsJET EnginesFlight MechanicsPerformanceWe will discuss topics such as Stability, Mechanics and Rigid-Body Physics, Aircraft types and history, Flight Mechanics and Maneuvers, Control Surfaces, TurboFans and much more!The objectives of the Course are for you to understand how Airplanes generate Lift, how the Lift is related to the Drag and how the Drag requires a constant Thrust provided by the engines. Engine types and comparison, which one is more efficient and why? Flight Mechanics and control surfaces and Performance of the Aircraft depending on the Range and Weights. I encourage you to begin this journey to Aerospace Engineering, you won't regret it! If you have any doubts during the course feel free to contact me, I will answer as quick as possible! The course was included in the Udemy for Business. This inclusion is a guarantee of the quality of the content, being provided to companies around the globe. Most reviewed Aerospace Engineering courseon Udemy.

Have the knowledge of a rocket scientist and learn how to deal with complex equations critical to rocket propulsion! What you'll learn: Discover Rockets and Their ComponentsDerive and Understand The Rocket Thrust EquationFull Understanding of Specific ImpulseDerive and Understand Tsiolkovsky’s Rocket EquationDiscover The Aerodynamic Forces on a RocketThorough Thermodynamic AnalysisUnderstand The Meaning of An Ideal RocketDerive, Develop and Understand Complex Rocket Design Equations in A Simple MannerDesign a Rocket Engine For a Specific Orbit/AltitudeDerive and Understand Performance Key ParametersFull Understanding Of How Liquid-Propellant Rocket Engines Work And Their ComponentsDiscover The Different Engine Cooling TechniquesHeat Transfer AnalysisFull Understanding Of How Solid-Propellant Rocket Engines Work And Their ComponentsDiscover The Different Electric Propulsion Systems, The Difference Between Them And How They Work HAVE THE KNOWLEDGE OF A ROCKET SCIENTIST!First of all, if you're looking for a course that contains basic knowledge about rocket science, just skip ahead because this course is NOT for you! This course is more mathematics oriented. Think of it as rocket propulsion university lectures compressed into 4.5 hours, that's why high school/basic mathematics and physics are recommended. You can always check my AP/College Physics course, your call! PLEASE DO TAKE A LOOK AT THE VIDEOS PROVIDED FOR FREE BEFORE ENROLLING IN THIS COURSE! I assure you, this is the only online course that focuses this much on rocket propulsion! Go ahead, do your research!NO YOU WILL NOT BECOME A ROCKET SCIENTIST! You will however, understand the concepts behind rocket science and engineering and you will never say "IT'S NOT ROCKET SCIENCE!" again, because as it turns out, it's not that hard. This course contains 4.5 hours of content containing clear course videos and examples to help you better understand the concepts of rocket propulsion, and you will also find quiz questions at the end of each section so you can test your knowledge!This course contains crystal clear explanation of rocket propulsion, how to deal with complex equations which are critical to rocket design and how to use these equations to design a rocket engine for a specific mission. This course is made using Microsoft PowerPoint which I Provided in the form of a PDF so you can keep up while watching the course videos. You will find it included as a resource in the first course video, so you can easily download it. YOU SHOULD KNOW THAT THIS COURSE DOES NOT CONTAIN ORBITAL MECHANICS (Kepler's laws and all that) PLEASE DO TAKE A LOOK AT THE COURSE CONTENT BEFORE ENROLLING IN THIS COURSE! "We choose to go to the moon not because they are easy but because they are hard". JFK What students say about this course: "I honestly never thought it would be this detailed! The way the instructor presents such complex concepts, so simple, so elegant. The examples and the quiz questions helped a lot!Whether you're a total beginner or a Ph.D. student, this course is PERFECT for you!Thank you so much, really enjoyed it!"

ABOUT THE COURSE:The aim of this course is to provide a general overview of the field of Aeronautical Engineering to interested students. The course will consist of ten Capsules, each consisting of two Lectures. Each Lecture will cover a specific concept or area relevant to the subject. An attempt will be made to cover the contents in an interesting manner, by a judicious use of a mix of powerpoint presentations, in-class activities, quizzes, innovative and hands on assignments that will not only increase the awareness of the students, but also satiate their curiosity and desire to know more about the various concepts related to the subject.INTENDED AUDIENCE : Any discipline of Engineering, who are interested in the subjectINDUSTRY SUPPORT : DRDO, HAL, NAL, IAF

Master the Mechanics of Structural Design, the Structure of Aircraft Components and Aerospace Materials Science What you'll learn: Understand the basics of Aerospace EngineeringIdentify the components of an Aircraft and their purposesUnderstand the role of Materials Science in Aerospace EngineeringLearn how to Design the Structure of an Aircraft The Aerospace Engineering: Aircraft Structures and Materials Course is a multidisciplinary course where you will study the engineering and design of the structures and materials of aircraft. My intention is that you fully understand the main topics regarding Materials Science as well as Structural Design of Aircraft and Airplanes. The structure of the Course is the following: Introduction to Aerospace Structures and MaterialsAircraft LoadsMechanical StressesAircraft StructuresMaterials ScienceAerospace MaterialsStructures Design and Material SelectionWe will discuss the typical loads which may be encountered on Aircraft, as well as a comprehensive description of mechanical stresses that may emerge due to such loads, and how they define the need for specific structures in aircraft. The objective of the Course are for you tu understand why Aircraft require specific structural designs as well as light-weight and strong materials in order to operate at normal conditions. Also, we will study in depth Material Science, Mechanical Properties and how to select the correct Aerospace Material.I encourage you to begin this journey to Aerospace Engineering:Aircraft Structures and Materials, you won't regret it! If you have any doubts during the course feel free to contact me, I will answer as quick as possible!

Aerospace and Aeronautical Engineering: Master the Systems of Airplanes - Hydraulics, Avionics, Electric, Propulsion What you'll learn: Understand the basics of Aerospace EngineeringIdentify the components of an Aircraft and their purposesUnderstand the role of Aircraft Systems in the operation of AircraftKnow the physics of how Aircraft Systems work The Aerospace Engineering: Aircraft Systems and Avionics Course is a multidisciplinary course where you will study the engineering of the many systems onboard of Airplanes and Aircraft. My intention is that you fully understand the main topics regarding Systems Engineering of Aircraft and Airplanes. The structure of the Course is the following: IntroductionFlight InstrumentsElectrical SystemPneumatic SystemHydraulic SystemAvionicsCockpitWe will discuss topics such as Flight Instruments on Civil Aircraft, the generators used to produce electricity on board, the Key differences between Pneumatic and Hydraulic Systems and more!The objective of the Course are for you tu understand why Aircraft require a specific set of systems in order to operate at normal conditions. Why the hydraulic system is essential to move the control surfaces on the aircraft and how it is linked to the Landing Gear. Cockpit main instruments and their relation to the conditions of flight. I highly recommend having taken the course on Aerospace Engineering: Aircraft Fundamentals and Advanced in order to clearly grasp the concepts mentioned in this course!I encourage you to begin this journey to Aerospace Engineering, you won't regret it! If you have any doubts during the course feel free to contact me, I will answer as quick as possible!

Understand how Airplanes generate Lift, how Airlines and Airports operate and what is Aerospace Engineering today. What you'll learn: Understand the Basics of Aerospace EngineeringUnderstand how Airplines Fly and key parametersIdentify the type of Aircraft suited for each missionComprehend the complexities of a Airline Economic ModelVisualize the key design elements for AirportsDistinguish Commercial Aircraft The Aerospace Engineering: Airplanes, Airlines and Airports Course is a multidisciplinary course where you will study aerodynamics, mechanics and engineering of Airplanes, the Operation of Airlines and Airports and what Aerospace Engineering looks like Today. My intention is that you get a good overview to what Aerospace Engineering is Today, focusing on Aircraft Design and Dynamics but also getting a complete insight into Airlines and Airports.The structure of the Course is the following: IntroductionClassification of AirplanesAirplane EngineeringAirline ModelsAirportsWe will discuss topics such as Aircraft types, Flight Mechanics and Maneuvers, Aerodynamics concepts, TurboFan Engines, Airline Models and Businesses, Airport Operation as a function of the number of passengers per year and much more!I want you to fully grasp and comprehend Aerospace Engineering and to break it down from Complex and Broad to Simple Key Ideas. I want you to feel confident when working with Aerospace Engineering projects in the future or when discussing topics with other people.I deeply encourage you to begin this journey into the fascinating world of Aerospace Engineering, you won't regret it! If you have any doubts during the course contact me and we will solve any questions that may arise!

Master aircraft and engine designs, parts and components, aerodynamics and classification What you'll learn: Aircraft and airplane classification by various parameters.Most of airplane designs and configurations and how these impacts its spectrum of use.General aerodynamics of airplanes: forces of a flight, laminar and turbulent flows, stalls, supersonic flights, airplane stability, etc.Airplane airframe and flight controls.Turbojet, turbofan, turboprop and piston engines.Types of aviation fuel. Aerospace Engineering: Airplane design and Aerodynamic basics course is aviation and airline related course where you will study most modern airplane designs and engine work principles. My intention is that you, in terms of aerodynamics, learn and understand how different airplane components including its engines make the airplane to fly in the most efficient way. The course is concentrated on civil commercial airplanes but also explains essential designs used in military aviation.The structure of the course is following:IntroductionAircraft and airplane classificationAerodynamics basicsAirframe, flight controls and enginesYou will learn such topics as Aircraft classification, Flight Performance classes, Airplane spectrum of use, Commercial airplane classification, Aerodynamic forces of an airplane, Laminar and turbulent flows, stall, Airframe, Flight controls and high lift devices, Jet engines, Aviation fuel types, ICAO noise categories and much more!The objectives of this course for you are to be well oriented in Aerospace engineering and in Aviation in general, and get deep theoretical and practical knowledge on the subjects. For better understanding the course contains a lot of graphical information, practical examples, around 2 hours of specially prepared reading materials and quizzes after each theoretical section.I encourage you to begin this journey to Aviation and Aerospace engineering and you will not regret it! If you have any questions during the course feel free to contact me, I will answer as quick as possible!

Learn how to manage your manager. In this course, adapted from the podcast How to Be Awesome at Your Job, Mary Abbajay explains how to build a good relationship with your boss.

Learn how to create and manage apps with SCCM and prepare for Microsoft certification exam 70-703. See how to deploy apps using PowerShell scripts, and deploy App-V virtual apps.

Explore the applications of Go in aerospace engineering through this GopherCon 2022 talk by Patricio Whittingslow. Discover how a small Argentinian startup leverages Go for rigid-body simulation of orbital vehicles, 3D visualization of orbital maneuvers, embedded systems, and rocket motor testing. Learn about the high-level experiences of applying Go to solve common aerospace industry problems, including orbital trajectory optimization using unsupervised machine learning and industrial control/automation for rocket engine testing. Gain insights into Go's impact on the company and its fit within the aerospace industry. The talk covers topics such as ideal gas laws, rewriting Python programs, the Zonda Sounding Rocket, embedded systems, flight software, WebAssembly, and machine learning applications in aerospace.

Dive into the world of aerospace propulsion through this comprehensive course. Explore air-breathing engines like turbojets, turboprops, turbofans, ramjets, and scramjets, as well as non-air-breathing engines. Analyze general performance parameters and conduct cycle analyses for various engine types. Study rocket nozzles, including 1D analysis, real effects, and thrust vectoring. Delve into solid rockets, examining propellants, burn rates, performance, grain design, ignition, and quenching. Investigate liquid rockets, covering propellants, nozzle cooling, feed systems, pumps, and fuel injection. Learn about hybrid rockets and their performance characteristics. Conclude with an introduction to chemical equilibrium analysis using SP 273.

Aerospace Technology is a course with strong Aerospace characteristics. It is a basic course of specialized general education being geared to middle and senior undergraduates and junior postgraduates. It focuses on motivating students’ interests on aerospace science, broadening their horizon, improving their awareness of aerospace engineering and enhancing their creative abilities from the aspects of knowledge and technology.To ensure the teaching quality, the course teaching team is composed of many first-class teachers. With abundant content and detailed examples, the course emphasizes on the combination of theory and practice, aiming at laying a good foundation for further improvement on students’ awareness of aerospace and their technical skills.

The course aims to provide the knowledge needed to design and develop efficient driving and navigation solutions for autonomous vehicles. Driving can be strategic or tactical while navigation is the function that provides information about the position, speed and orientation of the vehicle. It is made by integrating measurement from different sources, such as sensors and receivers.

Explore the journey of becoming an effective software engineering manager in this insightful GOTO Book Club interview. Gain valuable insights from James Stanier, Director of Engineering at Shopify, and Gergely Orosz, author of The Pragmatic Engineer, as they discuss the challenges and opportunities of transitioning into management roles. Learn about the real stories behind Stanier's book, the differences between prescriptive advice and practical tools, and how to navigate the path to management. Discover current trends in engineering management, essential tools for success, and receive book recommendations to further your leadership skills. Whether you're considering a move into management or looking to enhance your existing leadership abilities, this talk offers practical guidance for thriving in the dynamic world of software engineering management.

Explore the fascinating world of space engineering in this 50-minute talk by an Aerospace Engineer from NASA's Goddard Space Flight Center. Gain insights into the role of a Contamination Control Engineer for the James Webb Space Telescope and learn about the challenges and intricacies involved in maintaining the telescope's pristine condition. Discover the upcoming Roman Space Telescope project, scheduled for launch in 2027, and understand its potential contributions to space exploration and scientific discovery. Delve into the cutting-edge technologies and meticulous processes employed by NASA in their quest to unravel the mysteries of the universe.

Explore the complex skill tree required for successful engineering management in this 37-minute Devoxx conference talk. Discover the diverse range of abilities needed to transition from software engineer to engineering manager, including technical expertise, project management, and coaching. Learn about various "builds" to develop the skills necessary to become an exceptional leader, drawing parallels to role-playing game skill trees. Gain insights into what it takes to be a good manager and how to master the multifaceted aspects of engineering management that are as diverse as the teams you'll lead.

Explore a comprehensive course designed for aspiring and current engineering leaders in the tech industry. Gain valuable insights into transitioning from software development to engineering management, learning essential leadership skills and understanding the distinctions between technical lead and engineering management roles. Discover effective strategies for communication and feedback, and explore topics such as the engineering manager roadmap, becoming a great leader, and career-boosting skills. Dive into practical lessons on giving feedback as both a software developer and an engineering manager, equipping yourself with the knowledge needed to excel in leadership positions within the tech sector.

Great leadership doesn't happen by chance—it happens by design. This course helps you create and evolve a personalized leadership checklist that keeps you focused on what matters most. You'll learn the core components of an effective checklist, from daily practices to strategic responsibilities, and how to structure them for clarity and action. Through practical tools, case examples, and hands-on activities, you'll build a Version 1 of your leadership checklist, test it against real challenges, and refine it as your role evolves.

Looking for a consistent and reliable way to install Windows applications? Learn about the Chocolatey package manager.

As an engineering manager, it’s tough to balance business and technical priorities. This often shows up when giving your direct reports guidance on how to right-size the fidelity of solutions and code they’re writing. In this course, Product Management for Engineering Managers, you’ll learn how to speak the language of product to collaborate well with your cross-functional peers. First, you’ll explore an overview of product management. Next, you’ll discover what a product vision is and why it matters. Finally, you’ll learn how to do great stakeholder management so you can increase your influence with your business leaders. When you’re finished with this course, you’ll have the skills and knowledge of product management needed to collaborate effectively with your product and business stakeholders to foster a healthy engineering team that builds great products.