Academies → Academy of Engineering

Academy of Engineering

  • Overview 
  • Why enroll in this Academy? 
  • Who would be intersted in this Academy? 
  • Possible career paths for Academy members 
  • Rigor in the Academy 
  • Internships 
  • Recommended Academy pathway 
  • Required Academy coursework 
  • Engineering Course Descriptions

    Overview

    The advanced engineering program of study, Project Lead The Way, is a part of the National Alliance for Pre-engineering Programs. This nationally recognized curriculum challenges students of all abilities to become actively engaged in hands-on learning experiences using math, science, and technology in meaningful ways to solve real-world problems. It is designed for all students interested in pursuing an advanced career in the field of engineering and provides experiences that can lead to a wide range of potential careers.

    Students are expected to follow a four year sequence of courses which is linked to a post-secondary engineering program of study. Beginning in the freshman year, students are enrolled in the foundations course, Principles of Engineering. In the sophomore year, students take Introduction to Engineering Design.

    During the junior year, students may choose from a variety of specialty courses such as Aerospace Engineering, Bio-Engineering, Civil Engineering and Architecture or Telecommunications Engineering. This advanced engineering program culminates in a technology research project where students work in teams to research, design and construct a solution to an open-ended engineering problem. Students apply principles developed in the four preceding courses and are guided by a community mentor.

    Various career-based experiences such as focused job shadows, team competitions, and college/industry site visits are also required to reinforce the connection between school and work. College credit may be obtained upon completion of the Advanced Engineering courses.

    Why enroll in this Academy?

    • A bachelor's degree is required for entry-level jobs in engineering and generally ensures significantly higher salaries than those of college graduates in other fields.
    • Employment opportunities in engineering are expected to be good through 2008 and expected to increase as fast as the average for all occupations.
    • Engineers must continue their education throughout their career because much of their value depends upon their knowledge of the latest technology.
    • Competitive pressures and advancing technology will force companies to improve and update product designs increasingly more frequently, and to optimize the manufacturing process.
    • Prospects for manufacturers are best for those with the appropriate knowledge or technical expertise as well as the personal traits necessary for successful selling.
    • Many engineers work on long-term research and development projects that continue even during economic slowdowns.

    Who might be intersted in enrolling in this Academy?

    Are these among your interests and abilities? 

    • designing a new video game, parts for a car engine, the shape of a bottle for a new perfume or juice drink
       
    • applying theories and principles of math and science
       
    • researching and developing economical solutions to technical problems
       
    • controlling the operation of automatic machinery that produces products
       
    • using effective communication skills
       
    • designing, planning, and supervising the construction of buildings, highways, bridges and transit systems
       
    • developing new materials that improve the performance and quality of products
    • implementing advances in technology

    Possible career pathways for Academy members

    • Aerospace Engineer
    • Architect
    • Broker
    • Buyer
    • CAD Engineer
    • Chemical Engineer
    • Civil Engineer
    • Computer and Information Systems Manager
    • Computer Systems Analyst
    • Electrical Engineer
    • Electronics Engineer
    • Manufacturer's Agent
    • Mechanical Engineer
    • Purchasing Manager
    • Sales Representative
    • Service and Sales Manager

    Rigor in the Academy

    This High School Program will provide the student with an opportunity to meet or exceed the following Indicators of Rigor as established by the Maryland State Department of Education:

    • 2 credits of foreign language
    • 2 credits in advanced technology
    • Math course beyond Algebra 2 and Geometry
    • 4 credits in science
    • CTE Program Completer

    Internships

    Opportunities for job shadowing experiences as well as internships in the field of engineering with a local industry will be available.

    Recommended Engineering Academy Pathway

    This is a sample planner that may be tailored to meet a student's individual needs. All students must take prescribed English, Math, Science, Social Studies, and other courses required for a Maryland Diploma. Those courses are part of each academy pathway. While we recommend honors and Advanced Placement courses, all students are invited to participate in the Academy. Academy faculty and counselors will work to help ensure student success. See the DCC High School Program Overview and the MCPS Course Bulletin for more information.

     

    Grade 9 
    Grade 10 
    Grade 11 
    Grade 12 

    English:English 9/Honors 

    English:
    English 10/Honors 

    English:
    English 11/Honors/AP 

    English:
    English 12/Honors/AP 

    Mathematics:Algebra 1 


    Honors Geometry     

     Algebra 2 w/Analysis

    Mathematics:
    Geometry/Honors 

    Algebra 2 w/Analysis

     
    Precalculus w/Analysis 

    Mathematics:
    Algebra 2
    Alg 2 w/Analysis

    Precalculus w/Analysis

     
    Statistical & Mathematical ModelingAP Calculus BC 

    Mathematics:
    Statistics
    Precalculus w/ Analysis

    AP Calculus AB
    AP Calculus BC

    AP Statistics

    College Level Math Beyond AP Calculus

    Social Studies:U.S. History/Honors 

    Social Studies:National, State & Local Government/Honors/AP 

    Social Studies:Modern World History/Honors/AP 

    Social Studies:AP Social Studies
    or    Academy/Elective Coursework

    Science:Matter & Energy/Honors 

    Honors Biology 

    Honors Physics 

    Science:
    Biology/Honors 

     

    Honors Chemistry 

     

    Science:
    Chemistry/Honors 

    Honors/AP PhysicsAP Chemistry/Biology

     

    Honors Biology 

    Science Elective:Physics/Honors 

     AP Science courseor
    Academy/Elective Coursework

    Foreign Language 

    Foreign Language 

    Foreign Language 

    Foreign Language 

    ConnectionsandPhysical Education 

    Physical Education
    andHealth

    Civil Engineering and Architecture 
    Academy/Elective Coursework or Internship 

    Principles of Engineering * 

    Introduction to Engineering Design *

    Digital Electronics *

    Engineering Design Development *


    Required Academy Coursework

    Academy Coursework (choose from among the following) :Aerospace Engineering
    Bio-engineering
    Civil Engineering and Architecture
    Computer Integrated Manufacturing
    Telecommunications Engineering     

    Foreign Language (choose one language) :French
    Italian
    Spanish

    Elective Coursework (choose as needed) :Technology/Computer Science
    Fine Arts/Music
    Physical Education

 

Engineering Course Descriptions

Principles of Engineering - Grades 9 -12 (5150/5151)
Is a broad-based survey course to help students understand engineering and engineering technology and identify career possibilities. This course provides an overview of engineering and engineering technology. Students develop problem-solving skills by tackling real-world engineering problems. Through theory and practical hands-on experiences, students address the emerging social and political consequences of technological change. Concurrent enrollment of Algebra 1 or higher recommended. (Technology Education Credit)

Introduction to Engineering Design - Grades 10 -12 (5152/5153)
Is an introductory course that develops students' problem-solving skills, with emphasis on visualization and communication skills using a computer and a 3-D solid modeling software. This course emphasizes the development of a design. Students use computer software to produce, analyze, and evaluate models of projects and solutions. They study the design concepts of form and function, and then use state-of-the-art technology to translate conceptual design into reproducible products. Concurrent enrollment of Geometry or higher recommended.
(Technology Education Credit, Certificate of Merit)

Civil Engineering and Architecture - Grades 10 -12 (4255/4256)
This course provides an overview of the fields of civil engineering and architecture, while emphasizing the interrelationship and interdependence of both fields. Students use state-of-the-art software to solve real-world problems and communicate solutions to hands-on projects and activities. This course covers topics such as: The Roles of Civil Engineers and Architects; Project Planning; Site Planning; Building and Engineering Design; and Project Documentation and Presentation.

Digital Electronics - Grades 10 -12 (5156/5157)
Is a course of study in applied digital logic using electronic logic circuits that first are designed and then tested using the latest computer-logic modeling technology. This course introduces students to applied digital logic, a key element of careers in engineering and engineering technology. This course explores the smart circuits found in watches, calculators, video games, and computers. Students use industry-standard computer software in testing and analyzing digital circuitry. They design circuits to solve problems, and use appropriate components to build their designs. Students use mathematics and science in solving real-world engineering problems. Concurrent enrollment of Algebra 2 or higher recommended.
(Program Completer,Certificate of Merit, Honors)

Engineering Design Development - Grade 12 (5158/5159)
Is the capstone course for students in the Academy of Engineering. Students are required to work in two-to-four person teams that research an open-ended problem and then design and construct a solution to it. Each team must submit progress reports and a final research paper. The team members then defend the solution with an oral presentation before an outside review panel. This course lets students apply what they have learned in academic and advanced engineering courses as they complete challenging, self directed projects. Students work in teams to design and build solutions to authentic engineering problems. An engineer from the school's partnership team monitors each student team. Examples of projects may include a robotic mascot for the school, a remote-controlled hovercraft, or a solar-powered device. Students keep journals of notes, sketches, mathematical calculations, and scientific research. Student teams make progress reports to their peers, mentor and instructor and exchange constructive criticism and consultation. At the end of the course, teams present their research paper and defend their projects to a panel of engineers, business leaders and engineer college educators for a professional review and feedback. This course equips students with the independent study skills that they will need in postsecondary education and careers in engineering and engineering technology.
(Program Completer, Certificate of Merit, Honors)

 

Advanced Engineering Internship 
 
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