US$25
weeklyor US$125 for 5 classes
무엇이 포함되어 있나요?
5개의 라이브 미팅
수업 4 시간 35 분 시간학습 평가
Learner progress will be assessed through class participation and their roller coaster design presentation at the end of the course.보고계신 지문은 자동 번역 되었습니다
수업 소개
영어 수준 - 알 수 없음
미국 3학년 - 6학년 학년
Taught by a roller coaster engineer, this innovative five-lesson course will lead students to discover the power of simple machines as the backbone of designing and building roller coasters! Through our exploration of the science behind the six simple machines – from the mighty lever to the versatile pulley – students will have the opportunity to deepen their understanding of the fundamental principles that guide the mechanical design of various ride systems. These systems will include lift hills, drops, launch mechanisms, restraints, coaster trains, support columns, track construction, and more! Learners will travel to Disney World, Cedar Point, Six Flags, Universal Studios, and a host of other popular parks from Asia, Europe, and Africa to see how simple machines enable roller coasters to offer thrills for all humanity! The class will include interactive games, engaging visual presentations, video clips, and multisensory instruction designed to nurture an enthusiasm for STEM and a joyful appreciation for the engineering behind our favorite thrill-ride experiences. For class projects, students will enjoy the opportunity to use their knowledge in designing their own rides and ride components! To summarize, each session will focus on a specific simple machine, ride systems where that simple machine can be found, and feature roller coasters from countries around the world: Session 1: The Lever • Review the exciting variety of roller coasters that exist. • Highlight the instructor’s background and experience as a coaster engineer. • Introduce the three types of levers. • Explore the way levers are used in roller coaster restraint systems. • Feature roller coasters from Six Flags and Cedar Point amusement parks. • Students will be given guidance for their roller coaster design projects. Session 2: The Inclined Plane • Play an interactive coaster trivia game. • Introduce the science of the inclined plane. • Explore the special ways that Disney World uses inclined planes on rides. • Discover a unique application of an inclined plane for a ride on top of a skyscraper. • Discuss common misconceptions about the inclined plane. • Feature roller coasters in Taiwan and Japan. • Students will be given guidance for their roller coaster design projects. Session 3: The Pulley • Play an interactive game to review concepts from prior lessons. • Introduce the physics and mechanical design of the pulley. • Discover applications of the pulley in launch systems and lift hills at Cedar Point. • Feature roller coasters in Saudi Arabia and the United States. • Students will be given guidance for their roller coaster design projects. Session 4: The Wheel & Axle • Play an interactive game to review concepts from prior lessons. • Introduce the wheel & axle simple machine. • Study the way wheels & axles are used in the design of roller coaster trains. • Detail specific coaster wheel assembly mechanisms. • Play an interactive game to reinforce newly learned technical design concepts. • Feature roller coasters from England, Finland, and Universal Studios (USA). • Students will be given guidance for their roller coaster design projects. Session 5: The Screw and The Wedge; Student Project Presentations • Play an interactive review game. • Introduce the screw and its various applications in roller coaster construction • Explore applications of the screw in support columns, tracks, and coaster trains. • Introduce the wedge and the intriguing ways it is used in coaster train design. • Feature roller coasters from South Africa, Singapore, and Canada. • Students will have the opportunity to present one of their coaster design projects. • Design projects will include technical explanations of the simple machines utilized. ⭐️⭐️⭐️ If you are brand new to Outschool, message me for a promo code! ⭐️⭐️⭐️
학습 목표
1. Students will learn the difference between the lever, inclined plane, pulley, wheel & axle, screw, and wedge.
2. Students will develop a technical and scientific understanding of how the six simple machines work.
3. Students will learn how roller coaster engineers use simple machines to design various roller coaster systems.
4. Students will learn how to design their own ride concept and provide technical explanations for how their design uses simple machines.
강의 계획서
5 레슨
5 주 이상레슨1:
The Lever
Review the exciting variety of roller coasters that exist. Highlight the instructor’s background and experience as a coaster engineer. Introduce the three types of levers. Explore the way levers are used in roller coaster restraint systems. Feature roller coasters from Six Flags and Cedar Point amusement parks. Students will be given guidance for their roller coaster design projects.
55 분 온라인 라이브 레슨
레슨2:
The Inclined Plane
Play an interactive coaster trivia game. Introduce the science of the inclined plane. Explore the special ways that Disney World uses inclined planes on some of its most popular rides. Discover a unique application of an inclined plane for a roller coaster that sits on top of a skyscraper. Discuss common misconceptions about the inclined plane. Feature roller coasters in Taiwan and Japan. Students will be given guidance for their roller coaster design projects.
55 분 온라인 라이브 레슨
레슨3:
The Pulley
Play an interactive game to review concepts from prior lessons. Introduce the physics and mechanical design of the pulley. Examine the fascinating applications of the pulley in launch systems and lift hills on roller coasters at Cedar Point. Feature roller coasters in Saudi Arabia and the United States. Students will be given guidance for their roller coaster design projects.
55 분 온라인 라이브 레슨
레슨4:
The Wheel & Axle
Play an interactive game to review concepts from prior lessons. Introduce the wheel & axle simple machine. Study the way wheels & axles are used in the design of roller coaster trains, detailing specific train mechanisms. Play an interactive game to reinforce the newly learned technical design concepts and coaster terminology. Feature roller coasters from England, Finland, and Universal Studios (USA). Students will be given guidance for their roller coaster design projects.
55 분 온라인 라이브 레슨
그 외 세부 사항
수업 자료
The following learning materials are included with registration and provided as downloadable PDFs: • Printable "Engineer's Notes" for taking notes during class. • Printable "Engineering Paper" for coaster design projects. • Printable "Class Project Instructions" for the capstone class project. • Printable "Course Overview" highlighting the six simple machines.
등록 시 4개의 파일을 볼 수 있어요.
Outschool 외 필요 앱/웹사이트
아웃스쿨 사이트의 기능 외 별도의 앱이나 웹 사이트를 사용할 필요가 없습니다.
선생님을 만나보세요
교사 전문성 및 자격증
학사 학위 과학 The Pennsylvania State University에서
After engineering two roller coasters for Universal Studios, I have spent the last 20 years teaching kids about the wonderful world of amusement parks and how engineering makes it all possible!
I hold a Bachelor of Science degree in Mechanical Engineering from Penn State University.
리뷰
Gareth Murray, B.Sc. Engineering님의 다른 수업
Gareth Murray, B.Sc. Engineering님의 다른 수업
다른 인기 수업
행동의 엔지니어링: 엔지니어링 설계 소개
Ian Nelson
4.7
(2,521)
US$15회당 수업료
다음 세션은 Saturday 5 PM 에 예정되어 있습니다.
그룹 수업
1 주, 주당 1회50분
9-14 세
엔지니어링이란 무엇인가? 어린이를 위한 소개
Ian Nelson
4.7
(2,521)
US$10회당 수업료
다음 세션은 Sat 3/1 3 PM 에 예정되어 있습니다.
그룹 수업
1 주, 주당 1회50분
7-12 세
엔지니어는 문제를 해결합니다
Ian Nelson
4.7
(2,521)
US$15회당 수업료
다음 세션은 Saturday 4 PM 에 예정되어 있습니다.
그룹 수업
1 주, 주당 1회50분
11-15 세
엔지니어처럼 생각하세요
Ian Nelson
4.7
(2,521)
US$16회당 수업료
다음 세션은 Sun 3/9 10 PM 에 예정되어 있습니다.
그룹 수업
10 주, 주당 1회50분
9-14 세
엔지니어링 클럽: 미래 및 젊은 엔지니어를 위한 설계 프로세스의 균열
Bright & Smart ~ Engineering Skills for Kids
4.8
(213)
US$18회당 수업료
다음 세션은 Thu 3/6 3 PM 에 예정되어 있습니다.
그룹 수업
주당 1회1 시간
9-12 세
LEGO 엔지니어 STEM 클럽
Ms. Amy Empowering Young Minds
US$15회당 수업료
다음 세션은 내일 4 AM 입니다.
그룹 수업
주당 1회45분
8-10 세
아이들을 위한 일상의 것들의 엔지니어링
Ian Nelson
4.7
(2,521)
US$15회당 수업료
다음 세션은 Mon 3/3 11 PM 에 예정되어 있습니다.
그룹 수업
4 주, 주당 1회50분
7-12 세
Primus Summer Camp: 프로젝트가 있는 엔지니어링 캠프
Annette the Teacher B.A. ACE Educator
4.9
(128)
US$16회당 수업료
다음 세션은 Mon 6/2 5:30 PM 에 예정되어 있습니다.
그룹 수업
1 주, 주당 5회50분
8-13 세
Bricktastic 엔지니어링 챌린지(8-12세)
Ian Nelson
4.7
(2,521)
US$15회당 수업료
다음 세션은 Tue 3/4 12 AM 에 예정되어 있습니다.
그룹 수업
4 주, 주당 1회50분
8-12 세
어린이 태양 엔지니어의 모험
Dr. Lorette Weldon
4.8
(35)
US$23회당 수업료
다음 세션은 Fri 3/7 4 PM 에 예정되어 있습니다.
그룹 수업
4 주, 주당 1회55분
9-10 세
Brickbuilt 엔지니어링 팝업 워크숍
Ian Nelson
4.7
(2,521)
US$16회당 수업료
다음 세션은 Saturday 3 PM 에 예정되어 있습니다.
그룹 수업
1 주, 주당 1회50분
8-13 세
공학 기초 - 하중, 힘 및 재료 - 직장에서의 STEM
Mr. Pete
5.0
(32)
US$25회당 수업료
다음 세션은 내일 8 PM 입니다.
그룹 수업
1 주, 주당 1회1.50 시간
13-18 세
공과대학 진학 준비: 무엇을 기대해야 하고, 어떻게 탁월해져야 하는가
Ms. Daryll Mendoza
5.0
(2)
US$20회당 수업료
다음 세션은 Thu 3/6 3 AM 에 예정되어 있습니다.
그룹 수업
1 주, 주당 1회55분
14-18 세
STEM: 실습 프로젝트와 함께하는 기계 공학의 기초
David Salch
4.9
(3,344)
US$25회당 수업료
다음 세션은 Tue 3/18 10 PM 에 예정되어 있습니다.
그룹 수업
10 주, 주당 1회55분
9-14 세
8~12세를 위한 주간 STEM 챌린지: 엔지니어가 되어보세요!
Susan Laforet, M.Ed Curriculum and Instruction
4.9
(175)
US$15회당 수업료
다음 세션은 Tuesday 8 PM 에 예정되어 있습니다.
그룹 수업
주당 1회45분
8-12 세
마틴의 마인크래프트 레드스톤 엔지니어링 클럽(Bedrock 1.21)
Martin RJ - Fun Social Gaming Clubs
4.9
(183)
US$14회당 수업료
다음 세션은 내일 3 PM 입니다.
그룹 수업
주당 1회50분
8-13 세