Technology Education

1013 PHOTOSHOP & GRAPHIC DESIGN

Length of course: Full Year

Credit: 1.0

Grade 9-12

Pathway: Arts & Communication (AC); Business, Finance, & Information Technology (BFIT)

Students create digital images by using computer software such as Adobe Photoshop, Illustrator, and other computer programs. Students design and create projects such as posters, bumper stickers, notepads, tickets, and business card etc. Student will also learn how to do photo touch-up work and color adjustments. All projects are composed of images and text that work together to communicate a message. Whether it is to attract attention, inform, persuade or inspire, the graphic design industry specializes in creative problem solving. Graphic designers promote brands, markets ideas, and influence consumer behavior. Some of today’s most dynamic fields -- advertising, publishing, interactive -- are based on this fundamental concept of graphic design. This is a good course for students who are interested in becoming a graphic designers, or like computers or art.

1014 ENGINEERING 3D COMPUTER MODELING AND PRINTING

Length of course: Full Year

Credit: 1.0

Grade 9-12

Pathway: Arts & Communication (AC); Business, Finance, & Information Technology (BFIT); Science & Health (SH)

FEES: If interested in earning college credit through HACC (eligibility limited to 11^th and 12^th graders), an application is required and a course fee will apply ($75 per credit).

In Engineering CAD (Computer Aided Drafting) students make 3D modes using computer software design for engineering and manufacturing. Students will use programs such as SolidWorks, AutoCAD, and Google Sketch-up. Students will use a 3D printer to print some of their models created in class such as fidget spinners, CO2 drag cars, and cookie cutters / food models. This is a good course for students who are interested in engineering, manufacturing, and/or related fields.

Eleventh- and twelfth-grade students can receive college credit for this course through HACC’s “College in the High School” program, or take this course as a high school elective. Should students choose to participate in “College in the High School,” these 3 credits may be transferred to other colleges and universities.

1015 ROBOTICS ENGINEERING I

Length of course: Full Year

Credit: 1.0

Grade 9-12

Pathway: Engineering & Industrial Technology (EIT); Science & Health (SH)

Working in teams, students build fully functioning robots using motors, sensors, and remote controls to control them. Using the TETRIX^® building system and the LEGO^® EV3 Intelligent Brick, students learn the basics of building a robot then stretch their imaginations to design robots that navigate corn mazes, attempt to program a self-driving vehicle, crush Ping-Pong balls, and more. The program uses National Instruments Engineering-based icon language that’s easy to learn and used widely in industry. As students work with the latest in educational robotics, they apply basic principles of algebra and geometry while learning about energy, force, speed, power, simple machines, complex mechanisms, coordinate systems, measuring, and more. In addition, students learn to design and program basic autonomous robots. They create robots to perform gymnastics and dance maneuvers, learn how to use sensors, and adjust the speed, turning radius, and travel distance of the robots. It is recommended (but not required) that students take Engineering Design prior to enrolling in this course.

1026 ROBOTICS ENGINEERING II

Length of course: Full Year

Credit: 1.0

Grade 10-12

Pathway: Engineering & Industrial Technology (EIT); Science & Health (SH)

PREREQUISITE: Robotics Engineering I with an average of 70% or higher

This course will build on the skills and fundamentals covered previously in Robotics Engineering I. Individually using the TETRIX^® building system with the LEGO^® EV3 Intelligent Brick and other available materials, students will review the basics of the design and principles for the robot. Then stretch their imaginations to design a robot to complete two predefined design challenges, a color sorter and the robotic arm, before having the opportunity to design and complete a project that could be a prototype for an industry robot in the world today. In addition, students will be required to include 3-D printed pieces into their robot design, which they design and print. As they work with the latest in educational robotics, students apply basic principles of algebra and geometry while applying concepts or energy, force, speed, power, simple machines, complex mechanisms, coordinate systems, measuring, and more. It is recommended (but not required) that students take Engineering Design and Engineering 3D Computer Modeling and Printing prior to enrolling in this course.

1016 ENGINEERING DESIGN

Length of course: Full Year

Credit: 1.0

Grade 9-12

Pathway: Engineering & Industrial Technology (EIT); Science & Health (SH)

The Engineering Design curriculum introduces students to many areas in the world of engineering. The course focus on content by completing activities and projects such as creating a Rube Goldberg Machine, designing a tower to survive an earthquake, building large scale catapults and trebuchets, and creating a versatile survival tool. Students learn the basic engineering principles which include measurement, simple machines and steps of the engineering design process. They will use these principles as the students complete multiple design challenges. In addition, students will build and modify a hydraulic robotic arm along with multiple other kits. During each design challenge, students will follow the steps of the Engineering Design Process. There will be opportunities to utilize digital design and work with the 3-D printer.

1017 DIGITAL MULTIMEDIA DESIGN

Length of course: Full Year

Credit: 1.0

Grade 9-12

Pathway: Arts & Communication (AC); Business, Finance, & Information Technology (BFIT); Science & Health (SH)

The Digital Multimedia Design course introduces students to the basic steps of media design which applies basic hand coding then transitioning to using templates as the year goes on. This allows the students to create multiple websites, animations, videos, and different applications for a smartphone. The HTML 5 and CSS 3 coding languages are introduced as the base for web site design and creation. As students design and build various web sites from start to finish, they learn to use various software packages within the Adobe Creative Suite. Students will also have the opportunity to create animations and videos that can be applied to their websites or other multimedia design outlets. Throughout the course, students are provided with a wide range of opportunities to apply and demonstrate proficiencies in the concepts learned in class. By engaging in the projects and activities assigned to them, students gain valuable experience using various forms of multimedia to solve real-world design problems.

1021 ARCHITECTURAL CAD (COMPUTER AIDED DRAFTING)

Length of course: Full Year

Credit: 1.0

Grade 9-12

Pathway: Engineering & Industrial Technology (EIT); Science & Health (SH)

In Architectural CAD (Computer Aided Drafting) students will create 3D computer models of homes and office buildings using software such as Revit Architecture and Google SketchUp. This class is designed for students interested in architecture, structural engineering, interior design, or construction. Students will create various architectural drawing, such as floor plans, foundation plans, plot plans, detail drawings, section views, and elevations. In doing so, students develop a fundamental knowledge of building systems and a familiarity with basic building codes.

1043 DESIGN AND PROTOTYPING

Length of course: Semester

Credit: .5

Grade 9-12

Pathway: Engineering & Industrial Technology (EIT); Science & Health (SH); Arts & Communications (AC)

In this course, students will be designing and building projects with the help of Google Sketch-Up. Problem solving and the ability to think outside the box are two skills that any employer is looking for. The intent of Design and Prototyping is to give students these skills, as well as the physical skills to construct their designs. Students will learn how to create images in 3D software to help design a product. They will then use materials such as cardboard, plastic, wood or metal to create a prototype or model of the products they designed.

1044 BASIC MACHINE WOODWORKING

Length of course: Semester

Credit: .5

Grade 9-12

Pathway: Engineering & Industrial Technology (EIT); Science & Health (SH); Arts & Communications (AC)

In this course, students will be working in the wood shop to create projects out of wood and metal. The intent of this course is to provide students with the physical and safety skills associated with wood processing. The course will introduce the wood shop, safety regulations, of all of the wood processing machines, as well as how to interpret and replicate plans. Construction, sanding, and finishing concepts will also be investigated. Grades earned in this class are based upon class period work ethic, quality of individual project components and the completed project. Student projects belong to the student at the completion of the class. Students must pay a materials fee, which may range between $10.00 and $20.00, depending upon projects chosen.

1045 PRODUCT DESIGN AND MANUFACTURING I

Length of course: Full Year

Credit: 1.0

Grade 10-12

Pathway: Engineering & Industrial Technology (EIT); Science & Health (SH); Arts & Communications (AC)

PREREQUISITE: Design and Prototyping and Basic Machine Woodworking with an average of 70% or higher

In this course, students will be creating their own woodworking designs and building them in the woodshop. Several different projects will be investigated and created such as tables, pallet projects, and chairs. Wood lab safety, the design process, material processing, and collaborative learning will all be cornerstones of this course. Grades earned in this class are based upon class period work ethic, quality of individual project components, and the completed project. Student projects belong to the student at the completion of the class. Students must pay a materials fee which may be $40.00 or greater, depending on the size of the project and type of material chosen.

1046 PRODUCT DESIGN AND MANUFACTURING II

Length of course: Full Year

Credit: 1.0

Grade 11-12

Pathway: Engineering & Industrial Technology (EIT); Science & Health (SH); Arts & Communications (AC)

PREREQUISITE: Product Design and Manufacturing I with an average of 70% or higher

In this course, students will pick the project they want to complete. This course will build on the skills learned in Product Design and Manufacturing 1. Students will learn how to design a product and produce that product in the wood shop. Several different projects will be investigated and created. This course will build on the previous course by introducing more complex projects. Wood lab safety, the design process, material processing, and collaborative learning will all be cornerstones of this course. Grades earned in this class are based upon class period work ethic, quality of individual project components, and project completion. Student projects belong to the student at the completion of the class. Students must pay a materials fee which may be $40.00 or greater, depending on the size of the project and type of material chosen.

1039 INDEPENDENT STUDY TECHNOLOGY EDUCATION

PREREQUISITE: Student must have prior approval from the Technology Education Teacher and must have previously and satisfactorily completed no less than two courses in the area to be pursued. This being an elective course, students must pay for materials they use for their projects.

The independent study course is designed to allow students to choose a specific subject area in Technology Education and pursue it on an intensive basis. Students make their selections from various areas. The student and advisor determine the types of special plans and projects to be pursued. Student-advisor conferences will be arranged according to the student's schedule to evaluate student progress. Independent Study is offered to provide individual students with the opportunity to explore special talents or interests. Students will work with a classroom teacher to set personal learning goals and to determine the type of project or learning experience they would like to pursue. The classroom teacher and student will agree upon and determine the credit value (.5, 1.0) and how a grade will be determined (percentage grade or Pass/Fail). Independent study is designed to supplement a student’s educational pathway but cannot exempt a student from Board approved core graduation requirements. Students must complete Independent Study paperwork and be approved for the course by a building administrator.

1133 COMPUTER PROGRAMMING 1

Length of course: Full Year

Credit: 1.0

Grade 9 -12

Weight: 3 (CP)

Pathway: All

PREREQUISITE: Algebra 1

This course is designed to introduce students to the principles of Computer Science. Students will learn standard computational algorithms for decision structures, iteration structures and basic searching techniques. Students will learn programming style, format, design, and debugging techniques. Students will create user interface projects as used in real world applications. Students will learn the structure and syntax of the BASIC and Visual Basic programming languages. Any student considering a career in Computer Science (including but not limited to software design, game design, networking); Mathematics, Engineering (including but not limited to computer, mechanical, computer); Environmental, Biological or Behavioral science, should take this course.

1143 COMPUTER PROGRAMMING 2

Length of course: Full Year

Credit: 1.0

Grade 10 -12

Weight: 4 (H)

Pathway: ALL

PREREQUISITE: Computer Programming 1

This course is designed to be a continuation of Computer Programming I. Students will continue to study Computer Science principles related to ongoing changes in the field. Students will continue to learn computational algorithms using enhanced decision structures, iterative structures as well as sorting and searching algorithms and function development. Students will be introduced to concepts related to graphics development and physical computing. Students will refine their programming style, format, design and debugging techniques. Students will use the Python programming language to study these concepts Students enrolling in this course also have the option of receiving three general education credits through Harrisburg University at a cost of $300.

1145 COMPUTER SCIENCE –AP (COMPUTER PROGRAMMING 3)

Length of course: Full Year

Credit: 1.0

Grade 11 -12

Weight: 5 (AP)

Pathway: ALL

PREREQUISITE: Geometry & Computer Programming 1 & 2

This course is designed to study the JAVA programming language. Students will incorporate the logic of BASIC, VB, Python into JAVA problems. Emphasis will be placed on object-oriented programming and class development. This course is equivalent to a one-semester college computer science course. At the completion of the course, students may choose to take the A.P. exam in lieu of the course final. A satisfactory score may result in college credit from cooperating institutions. Students enrolling in this course also have the option of receiving three general education credits through Harrisburg University at a cost of $300.

1146 COMPUTER SCIENCE – CYBERSECURITY

Length of course: Full Year

Credit: 1.0

Grade 9 -12

Weight: 3 (CP)

Pathway: ALL

PREREQUISITE: CP Algebra 1

Cybersecurity is an increasingly in-demand field of Computer Science. In this course, we will look at the major ideas in the fields of cybersecurity or information assurance. The course design addresses the fundamental implications of technology, the history of securing information and the relationship to the evolution of technology, and the need to securely transmit and store information. This is not a “hacking” class but we are looking at the ways computers, programs, networks, and people, are exploited by hackers, and what we can do to prevent or minimize the damage caused by bad actors. (Computer programming skills are not the focus of this class).

INDEPENDENT STUDY COMPUTER SCIENCE

PREREQUISITE: Student must have prior approval from the Computer Science Teacher and must have previously and satisfactorily completed no less than two courses in the area to be pursued. This being an elective course, students must pay for materials they use for their projects if necessary.

The independent study course is designed to allow students to choose a specific subject area in computer science and pursue it on an intensive basis. Students make their selections from various areas. The student and advisor determine the types of special plans and projects to be pursued. Student-advisor conferences will be arranged according to the student's schedule to evaluate student progress. Independent Study is offered to provide individual students with the opportunity to explore special talents or interests. Students will work with a classroom teacher to set personal learning goals and to determine the type of project or learning experience they would like to pursue. The classroom teacher and student will agree upon and determine the credit value (.5, 1.0) and how a grade will be determined (percentage grade or Pass/Fail). Independent study is designed to supplement a student’s educational pathway but cannot exempt a student from Board approved core graduation requirements. Students must complete Independent Study paperwork and be approved for the course by a building administrator.