Principles of Technology 1 (9811)

Other Virginia CTE sets

• Career Investigations (9068)
• Family and Consumer Sciences Exploratory I (8206)
• Introduction to Technology & Engineering (8481)
• Computer Solutions (2020): Grades 7-8
• Family and Consumer Sciences II (8261)
• Agriscience and Technology 8004 (2021)
• Family and Consumer Sciences Exploratory III (8242)
• Accounting (6320/36 weeks)
• Agricultural Business Fundamentals I (8022 - 36 weeks)
• Agricultural Fabrication and Emerging Technologies (8019 - 36 weeks)
• Agricultural Power Systems, Advanced (8020 - 36 weeks)
• Agricultural Structural Systems (8017 - 36 weeks)
• Business Management (6135 - 36 weeks)
• Computer Information Systems (6612 - 36 weeks)
• Computer Systems Technology 1 (8622)
• Criminal Justice II (2024)
• Culinary Arts 1 (8275)
• Culinary Arts 2 (8276)
• Early Childhood, Education, and Services 1 (8285) 36 weeks
• Early Childhood, Education, and Services II (8286) 36 weeks
• Economics and Personal Finance (6120 - 36 weeks)
• Electricity 2 (8534/36 weeks)
• Electricity I (8533/36 weeks)
• Engineering Explorations I (8450) 36 weeks
• Engineering Studies (8491) 36 weeks
• Entreprenuership (9093)
• Entreprenuership, Advanced (9094)
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• Floral Design 1 (2024)
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• Interior Design II (8296)
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• Introduction to Culinary Arts (8250)
• Introduction to Health and Medical Sciences (8302- 36 weeks)
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• Introduction to Interior Design (8255)
• Introduction to Plant Systems (2021)
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• Landscaping 1 (8036)
• Marketing (2022)
• Medical Terminology (8383 - 36 weeks)
• Nurse Aide 1 (8360 - 36 weeks)
• Principles of Business and Marketing (6115 - 36 weeks)
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• Small Animal Care 1 (8083)
• Small Animal Care 2 (8084)
• Small Engine Repair (8082 - 36 weeks)
• Sports Medicine/Athletic Training I (Condensed) (8316—36 weeks/140 hours)
• Sports Medicine/Athletic Training II (Condensed) (8317—36 weeks/140 hours)
• Strategic Marketing (8130)
• Technology Foundations (8403)
• Technology of Robotic Design (2024)
• Veterinary Science 2 (8089)
• Virginia Teachers for Tomorrow 2 (9072 - 36 weeks)
• Virginia Teachers for Tomorrow I (9062 - 36 weeks)
• Criminal Justice I (2024)
• Veterinary Science 1 (8088)
• Criminal Justice II
• Emergency Medical Responder
• Sports and Entertainment Management (2021)
• Advanced Accounting (6321)
• Advanced Computer Information Systems (6613)
• Advanced Programming (6641)
• Career Strategies (9071)
• Certified Nurse Aide (CNA) 1 (8360)
• Certified Nurse Aide (CNA) 2 (8362)
• Child Development and Parenting (8232)
• Computer Information Systems (6612)
• Cybersecurity Fundamentals (6302)
• Cybersecurity Systems Technology (8628)
• Dual Enrollment Entrepreneurship (9093)
• Dual Enrollment Marketing (8120)
• Dual Enrollment Sales and Marketing Management (8125)
• Dual Enrollment Small Business Management (6135)
• Economics and Personal Finance (6120)
• Emergency Medical Technician (EMT) 1 (8333)
• Emergency Medical Technician (EMT) 2 (8334)
• Emergency Medical Technician (EMT) 3 (8335)
• Engineering Analysis and Applications II (2023)
• Engineering Concepts and Processes III (2023)
• Engineering Explorations 1 (8450)
• Engineering Practicum IV (2023)
• Independent Living (8219)
• Introduction to Early Childhood Education (8234)
• Introduction to Health and Medical Sciences (8302)
• Mechatronics 1 (8554)
• Mechatronics 2 (8555)
• Mechatronics 3 (8556)
• Medical Terminology (8383)
• Nutrition and Wellness (8229)
• Principles of Technology 2 (9812)
• Programming (6640)
• Sports and Entertainment Marketing (8175)
• Sports Medicine 1 (7660)
• Sports Medicine 2 (7662)
• Strategic Marketing (8130)
• Unmanned Aircraft Systems (2023)
• Unmanned Aircraft Systems, Advanced (2023)
• Workplace Readiness Skills

Define work in general and in mechanical, fluid, and electrical systems.PT1.2.1

Compare the presence of force and movement in mechanical, fluid, and electrical systems.PT1.2.2

Identify the International System of Units (SI) and English units for work in mechanical, fluid, and electrical systems.PT1.2.3

Demonstrate the effects of work done in mechanical, fluid, and electrical systems.PT1.2.4

Measure work in mechanical, fluid, and electrical systems.PT1.2.5

Define rate in general and in mechanical, fluid, electrical, and thermal systems.PT1.3.1

Identify the SI and English units for rate in all four energy systems.PT1.3.2

Calculate rate in mechanical, fluid, electrical, and thermal systems.PT1.3.3

Research workplace applications where rate is measured and/or controlled.PT1.3.4

Define resistance in general and in mechanical, fluid, electrical, and thermal energy systems.PT1.4.1

Calculate resistance in each energy system relating to the unifying principle of a “force” divided by a rate.PT1.4.2

Identify the SI and English units for resistance in each energy system.PT1.4.3

Compare positive and negative effects of resistance in each energy system.PT1.4.4

Explain workplace applications where technicians measure or control resistance.PT1.4.5

Describe how resistance is affected in thermal systems at extremely high and low temperatures in materials, including superconductors.PT1.4.6

Measure resistance in mechanical, fluid, electrical, and thermal energy systemsPT1.4.7

Construct a system that demonstrates positive vs. negative effects of resistance.PT1.4.8

Define energy in mechanical, fluid, electrical, and thermal systems.PT1.5.1

Demonstrate potential energy.PT1.5.2

Demonstrate kinetic energy.PT1.5.3

Describe the relationship between the law of conservation of energy and potential energy, kinetic energy, and heat energy.PT1.5.4

Interpret types of energy conversion in mechanical, thermal, electrical, and fluid systems.PT1.5.5

Describe the relationship between work and energy.PT1.5.6

Describe how principles of mechanics apply to celestial systems.PT1.5.7

Identify the SI and English units for energy in each system.PT1.5.8

Calculate energy in each energy system.PT1.5.9

Research workplaces where technicians measure or control energy.PT1.5.10

Define power in general and in mechanical, fluid, electrical, and thermal systems.PT1.6.1

Explain how thermal power and thermal rate are the same.PT1.6.2

Explain how power in each energy system relates to the unifying principle of work divided by time.PT1.6.3

Analyze why power can be described in terms of a force multiplied by a rate for mechanical, fluid, and electrical systems.PT1.6.4

Research workplace applications where technicians measure or control power.PT1.6.5

Construct a system that demonstrates the application of power.PT1.6.6

Define force transformers in general and in mechanical, fluid, and electrical systems.PT1.7.1

Evaluate the efficiency of energy conversion, using mathematical calculations.PT1.7.2

Explain why force transformers form a unifying principle in mechanical, fluid, and electrical systems.PT1.7.3

Research examples of force transformers in mechanical, fluid, and electrical systems.PT1.7.4

Construct a system that demonstrates the application of force transformers.PT1.7.5