The purpose of this course is to provide a project-based visual arts …
The purpose of this course is to provide a project-based visual arts program, which guides students to achieve the standards in the visual arts and career technical training, by providing students with the technical instruction and practical experiences for aspiring video and film makers in the production of film, video, and new media projects for business and entertainment. Students experience both the creative and technical aspects of filmmaking in conjunction with learning about historical and contemporary traditions and conventions.Students are instructed on the three stages of project creation. In pre-production, students learn the basic principles of story development, screenplay writing, storyboarding, scheduling and budget planning. Instruction in the production stage includes basic visual composition, color theory, set up and operation of camera, sound, and lighting equipment. Students learn to use cutting-edge software applications for video and audio post-production. Mastering and delivery methods, in both traditional and new media, are explored.The course also includes the basics of job shadowing, internships, and job placement. The competencies in this course are aligned with the California High School Academic Content Standards and the California Career Technical Education Model Curriculum Standards. Interdisciplinary experiences and arts activities lead to refining a personal aesthetic, and a heightened understanding of career opportunities in art and arts-related fields.
The Virgin Islands Marine Advisory Service (VIMAS) aims to increase awareness about …
The Virgin Islands Marine Advisory Service (VIMAS) aims to increase awareness about marine and terrestrial natural resources as well as help foster environmental stewardship ethics within the Virgin Islands' community.
Challenged with a hypothetical engineering work situation in which they need to …
Challenged with a hypothetical engineering work situation in which they need to figure out the volume and surface area of a nuclear power plant’s cooling tower (a hyperbolic shape), students learn to calculate the volume of complex solids that can be classified as solids of revolution or solids with known cross sections. These objects of complex shape defy standard procedures to compute volumes. Even calculus techniques depend on the ability to perform multiple measurements of the objects or find functional descriptions of their edges. During both guided and independent practice, students use (free GeoGebra) geometry software, a photograph of the object, a known dimension of it, a spreadsheet application and integral calculus techniques to calculate the volume of complex shape solids within a margin of error of less than 5%—an approach that can be used to compute the volumes of big or small objects. This activity is suitable for the end of the second semester of AP Calculus classes, serving as a major grade for the last six-week period, with students’ project results presentation grades used as the second semester final test.
Being able to read and understand, as well as sketch, or even …
Being able to read and understand, as well as sketch, or even draw a blueprint, is important to the making of accurate parts and complete fabrications.
Blueprints are tools that communicate what needs to be built or made, what materials are needed and what specifications are required. They insure that a design is made with complete accuracy what meets the needs of the customer.
This book is an updated version of the originally authored publication by the Department of Engineering and Drafting Technology Department at Linn-Benton Community College, in Albany Oregon.
For students with experience in welding but not in metallurgy. Atomic bonding, …
For students with experience in welding but not in metallurgy. Atomic bonding, defects in metal crystals, and weld microstructure in aluminum alloys.
The microstructure of aluminum welds will be revealed in the laboratory using standard metallographic techniques. Defects such as extraneous particles, porosity, and flaws (such as cracking) will be noted and recorded digitally in micrographs (pictures). Digital recording and analysis of the weld microstructures will be accomplished with an upright metallurgical microscope. Microhardness measurements will be made across each weld zone using a microhardness tester. The microstructure of the aluminum alloy welds will finally be related to welding parameters and weld integrity.
This course will offer safe and proper machine set-up, demonstrate the welding …
This course will offer safe and proper machine set-up, demonstrate the welding characteristics of aluminum and explain the use of special equipment associated with aluminum welding.
Preparation for aluminum welders utilizing both GTAW (TIG) and GMAW (MIG). This course will offer safe and proper machine set-up, demonstrate the welding characteristics of aluminum and explain the use of special equipment associated with aluminum welding.
This is the fourth lesson in a series of four. Students will …
This is the fourth lesson in a series of four. Students will create a presentation to a local agriculturalist in the form of an informational report that explains a waste management plan using compost.
What makes rockets fly straight? What makes rockets fly far? Why use …
What makes rockets fly straight? What makes rockets fly far? Why use water to make the rocket fly? Students are challenged to design and build rockets from two-liter plastic soda bottles that travel as far and straight as possible or stay aloft as long as possible. Guided by the steps of the engineering design process, students first watch a video that shows rocket launch failures and then participate in three teacher-led mini-activities with demos to explore key rocket design concepts: center of drag, center of mass, and momentum and impulse. Then the class tests four combinations of propellants (air, water) and center of mass (weight added fore or aft) to see how these variables affect rocket distance and hang time. From what they learn, student pairs create their own rockets from plastic bottles with cardboard fins and their choices of propellant and center of mass placement, which they test and refine before a culminating engineering field day competition. Teams design for maximum distance or hang time; adding a parachute is optional. Students learn that engineering failures during design and testing are just steps along the way to success.
Students apply everything they have learned over the course of the associated …
Students apply everything they have learned over the course of the associated lessons about waves, light properties, the electromagnetic spectrum, and the structure of the eye, by designing devices that can aid color blind people in distinguishing colors. Students learn about the engineering design process and develop three possible solutions to the engineering design challenge outlined in lesson 1 of this unit. They create posters to display their three design ideas and the comparisons used to select the best design. Then, students create brochures for their final design ideas, and "sell" the ideas to their "client." Through this activity, students complete the legacy cycle by "going public" with the creation of their informative posters and brochures that explain their designs, as well as color blindness and how people see color, in "client" presentations.
Students apply their knowledge of scale and geometry to design wearables that …
Students apply their knowledge of scale and geometry to design wearables that would help people in their daily lives, perhaps for medical reasons or convenience. Like engineers, student teams follow the steps of the design process, to research the wearable technology field (watching online videos and conducting online research), brainstorm a need that supports some aspect of human life, imagine their own unique designs, and then sketch prototypes (using Paint®). They compare the drawn prototype size to its intended real-life, manufactured size, determining estimated length and width dimensions, determining the scale factor, and the resulting difference in areas. After considering real-world safety concerns relevant to wearables (news article) and getting preliminary user feedback (peer critique), they adjust their drawn designs for improvement. To conclude, they recap their work in short class presentations.
Use your computer skills to learn how to develop your own web …
Use your computer skills to learn how to develop your own web page sites. This course is designed to provide the necessary skills and training for an entry level position in the field of Web Design. The class will focus on web page planning, basic design, layout, and construction (effective and ineffective), setup and maintenance of a web site, HTML, DHTML, JavaScript, and various web page and image creation tools.You will learn the basics of web design principles, digital media options, web design language (HTML), Internet uses and processes, design considerations, the impact of target market demographics, deliverables, and multiple software packages. Courses such as this can provide the skills and motivation for you to successfully complete college programs in one of several business areas. The primary purpose of this type of multi-media graphics education is to provide instruction for and about e-commerce and Internet communications through the use of Web Page Design. This is a repeatable course with progressive levels through Novice (this first level), Intermediate, and Advanced levels. You can turn this series of courses into a full Career Pathway as first an introductory, then a Concentration, and finally a Capstone course.
The Welding Technology course provides students with an understanding of manufacturing processes …
The Welding Technology course provides students with an understanding of manufacturing processes and systems common to careers in welding and related industries. Topics include the interpretation and layout of welded and assembled-parts, reading blueprints and understanding welding symbols. Further topics included are the common welding processes found in industry, metal charcteristics and finishing processes dealing with welded parts and projects.
Students learn about infrared energy and how it is used to sense …
Students learn about infrared energy and how it is used to sense the surrounding environment. They review where infrared falls on the electromagnetic spectrum and learn how infrared sensors work, as well as various ways engineers and scientists create and apply infrared technology to study science and collect information for security, communications, medical, research and other purposes. Pre/post-quizzes and a take-home assignment are provided. Learning the concepts prepares students to conduct the associated activity in which they design and program Arduino-controlled robots that use IR sensors to follow a line and make designated stops, much like the automated guided vehicles used in industry and commerce.
How can you tell if harmful bacteria are growing in your food? …
How can you tell if harmful bacteria are growing in your food? Students learn to culture bacteria in order to examine ground meat and bagged salad samples, looking for common foodborne bacteria such as E. coli or salmonella. After 2-7 days of incubation, they observe and identify the resulting bacteria. Based on their first-hand experiences conducting this conventional biological culturing process, they consider its suitability in meeting society's need for ongoing detection of harmful bacteria in its food supply, leading them to see the need for bioengineering inventions for rapid response bio-detection systems.
The general goal of this course is to allow students to acquire …
The general goal of this course is to allow students to acquire the basic knowledge and skills used in furniture construction, cabinetmaking, and the construction process. Students will learn to safely use woodworking tools and machines to produce a quality furniture project. Students will also be introduced to carpentry through model design and construction. Safety is stressed throughout the program.
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