# CTE Resource Center - Verso - Engineering Analysis and Applications II Task 2104899230

CTE Resource Center - Verso

Virginia’s CTE Resource Center

Design a system that transforms energy from one type to another.

Definition

Design should include
  • at least two of the systems changing power from one system to another
  • include transforming mechanical power to electrical
  • include transforming fluid power to mechanical.

Process/Skill Questions

  • What is a common way for mechanical power to be converted to electrical power?
  • How is electrical power converted to mechanical power?
  • What does fluid power do to convert power to mechanical systems?

Related Standards of Learning

English

10.1

The student will make planned multimodal, interactive presentations collaboratively and individually.
  1. Make strategic use of multimodal tools.
  2. Credit information sources.
  3. Demonstrate the ability to work effectively with diverse teams including setting rules and goals for group work such as coming to informal consensus, taking votes on key issues, and presenting alternate views.
  4. Assume responsibility for specific group tasks.
  5. Include all group members and value individual contributions made by each group member.
  6. Use a variety of strategies to listen actively and speak using appropriate discussion rules with awareness of verbal and nonverbal cues.
  7. Respond thoughtfully and tactfully to diverse perspectives, summarizing points of agreement and disagreement.
  8. Choose vocabulary, language, and tone appropriate to the topic, audience, and purpose.
  9. Access, critically evaluate, and use information accurately to solve problems.
  10. Use reflection to evaluate one’s own role and the group process in small-group activities.
  11. Evaluate a speaker’s point of view, reasoning, use of evidence, rhetoric, and identify any faulty reasoning.

11.1

The student will make planned informative and persuasive multimodal, interactive presentations collaboratively and individually.
  1. Select and effectively use multimodal tools to design and develop presentation content.
  2. Credit information sources.
  3. Demonstrate the ability to work collaboratively with diverse teams.
  4. Respond thoughtfully and tactfully to diverse perspectives, summarizing points of agreement and disagreement.
  5. Use a variety of strategies to listen actively and speak using appropriate discussion rules with awareness of verbal and nonverbal cues.
  6. Anticipate and address alternative or opposing perspectives and counterclaims.
  7. Evaluate the various techniques used to construct arguments in multimodal presentations.
  8. Use vocabulary appropriate to the topic, audience, and purpose.
  9. Evaluate effectiveness of multimodal presentations.

12.1

The student will make planned persuasive/argumentative, multimodal, interactive presentations collaboratively and individually.
  1. Select and effectively use multimodal tools to design and develop presentation content.
  2. Credit information sources.
  3. Demonstrate the ability to work collaboratively with diverse teams.
  4. Anticipate and address alternative or opposing perspectives and counterclaims.
  5. Evaluate the various techniques used to construct arguments in multimodal presentations.
  6. Use a variety of strategies to listen actively and speak using appropriate discussion rules with awareness of verbal and nonverbal cues.
  7. Critique effectiveness of multimodal presentations.

Science

PH.5

The student will investigate and understand the interrelationships among mass, distance, force, and time through mathematical and experimental processes. Key concepts include
  1. linear motion;
  2. uniform circular motion;
  3. projectile motion;
  4. Newton’s laws of motion;
  5. gravitation;
  6. planetary motion; and
  7. work, power, and energy.

PH.7

The student will investigate and understand that energy can be transferred and transformed to provide usable work. Key concepts include
  1. transfer and storage of energy among systems, including mechanical, thermal, gravitational, electromagnetic, chemical, and nuclear systems; and
  2. efficiency of systems.