Aeronautics 2-Microsoft Flight Simulator Take-Off & Landing Unit-Lesson 3
This is the third lesson of 7 in the Take-Off & Landing unit. This unit is the first for the Aeronautics 2 students. Students must have completed the 8 Basic Handling Unit lessons from Aeronautics 1 course. (See lesson plans from year one of ASAP Fellowship. https://stemteachers.asu.edu/stem-lesson-plans?sq=huggins)
Prior to teaching this lesson, all students must have completed lessons on the follow topics:
History of Flight
Bernoulli’s Principle
Newton’s Laws of Motion
Four Forces of Flight
Earth’s Atmosphere
Aviation Weather
Aircraft Vocabulary
8 Basic Handling Lessons from Aeronautics 1 (See last years ASAP Lesson plans)
Take-Off & Landing Lesson 1 & 2
(Note: I do not teach the last two lessons in the Take-Off and Landing unit until the students can successfully complete the Solo lesson. The final two lessons are dead stick landing and landing without an elevator.)
Since this is an individual assignment, I have my students working on various aeronautics related projects until it is their turn to interact with the flight simulator. Having more than one flight simulator allows for more students to complete the lesson in a shorter time.
Microsoft Flight Simulator is set up using real world weather and traffic conditions.
Lesson Plan Link/URL
https://docs.google.com/presentation/d/1qwOKFXeQD0L_tcaPwCkj3f7slfFoTgGwCptNolZ…Related Content
Teachers will be introduced to the VEX V5 Robotic Platform. We will start with an Introduction to robotics and how robotics is used in industry. Students will understand the key resources they will be
Students will use their knowledge of Newton's Laws of Motion to design and build a "ski jump" for a Sphero Bolt. This activity can be used for Science, Social Studies, Engineering, and (possibly)
In this hands-on lesson, students will conduct an experiment measuring and comparing temperatures using an IR Temperature gun around the classroom.