Section 3: Overview and Exam Framework
TX PACT: Technology Education: Grades 6–12 (771)

Exam Overview

Table outlining the test format, number of questions, time, and passing score.
Exam Name TX PACT: Technology Education: Grades 6–12
Exam Code 771
Time 2 hours and 30 minutes total appointment time
  • 15 minutes for CAT tutorial and compliance agreement
  • 2 hours and 15 minutes testing time
Number of Questions 100 selected-response questions
Format Computer-administered test (CAT)

The TX PACT: Technology Education: Grades 6–12 (771) exam is designed to assess whether a test taker has demonstrated the requisite knowledge and skills for admission to an educator preparation program. The 100 selected-response questions are based on the TX PACT: Technology Education: Grades 6–12 exam framework. Questions on this exam range from grades 6–12. Your final scaled score will be based only on scored questions.

Domains and Competencies

Table outlining test content subject weighting by domain.
Domain Domain Title Approx. Percentage of Exam
I Foundations and Design 24%
II Energy and Power Technology 14%
III Information and Communication Technology 20%
IV Transportation Technology 14%
V Manufacturing Technology 14%
VI Construction Technology 14%

Pie chart of approximate test weighting outlined in the table above.

The content covered by this exam is organized into broad areas of content called domains. Each domain covers one or more of the standards for this field. Within each domain, the content is further defined by a set of competencies. Each competency is composed of two major parts:

Domain I—Foundations and Design

Competency 001—Understand the scope and core concepts of technology education.

For example:

  1. applying business management techniques (e.g., developing work schedules, tracking work flow, optimizing use of resources) to technological situations
  2. recognizing that technological innovations stimulate competitiveness and that innovations are translated into marketable goods and services
  3. assessing the influence of scientific and technological innovations on productivity and living standards
  4. identifying major advances, discoveries, and inventions in science and technology and their historical contexts
Competency 002—Understand the relationships among technology, society and the environment, and connections between technology and other fields.

For example:

  1. recognizing the relationships between technology and culture, society, economy, and politics and the role of government in regulating and encouraging technology
  2. analyzing the interrelationships between technology and the environment (e.g., conservation, sustainability, materials disposal, monitoring and controlling emissions)
  3. applying mathematical principles and concepts (e.g., dimensional analysis, graphing, quadratic equations, trigonometric functions) to technological situations (including those related to biotechnology, medical technology, and agricultural technology)
  4. applying principles and concepts from physics, chemistry, and biology (e.g., force, laws of thermodynamics, molecular biology) to technological situations
Competency 003—Understand engineering design and its role in technology.

For example:

  1. identifying steps in the design process
  2. applying core concepts in technology to technological situations (e.g., systems thinking, tradeoffs, feedback, quality control)
  3. applying quality-control procedures and concepts in given technology-related situations
  4. applying procedures for setting, interpreting, and meeting design criteria and constraints (e.g., ergonomic considerations, ADA compliance, manufacturability, production costs, consumer feedback)
Competency 004—Understand the role of research and development, experimentation and invention, and troubleshooting in technology.

For example:

  1. demonstrating knowledge of the role of research and development and of experimentation and invention in technology
  2. analyzing the roles of models and modeling in the design process
  3. applying procedures for troubleshooting technology systems
  4. applying procedures for communicating information in the design process (e.g., developing and interpreting flowcharts, drawings, spreadsheets, graphs, and time charts)
Competency 005—Understand safety.

For example:

  1. applying procedures for ensuring safety while working with materials related to technology
  2. applying procedures for ensuring safety while working with tools and equipment related to technology
  3. identifying equipment and procedures for ensuring and maintaining a safe work environment (including MSDS sheets, proper storage and disposal of materials, implementing OSHA regulations)
  4. applying procedures for responding to workplace emergencies (e.g., using safety equipment, administering first aid, reporting emergencies)
  5. demonstrating knowledge of safety assessments (e.g., safety demonstrations and training, safety tests, record keeping)

 

Domain II—Energy and Power Technology

Competency 006—Understand principles and characteristics of energy and power technology and of energy resources.

For example:

  1. demonstrating knowledge of careers, employment opportunities, and job specialties in energy and power technology, and their responsibilities and requirements
  2. demonstrating knowledge of renewable and nonrenewable energy resources and their characteristics and applications
  3. demonstrating knowledge of types of energy (e.g., electrical, thermal, kinetic, potential), processes and devices used in converting between types of energy, and units used to measure energy and work
  4. demonstrating knowledge of processes used to generate power from different energy sources (e.g., wind, hydro, nuclear, solar, fossil fuel, fuel cells)
  5. analyzing the concepts of energy content, energy loss, efficiency, and energy conservation
Competency 007—Understand principles and processes related to electrical energy.

For example:

  1. analyzing the nature of electrical charge and electrical current
  2. demonstrating knowledge of electronic components (e.g., resistors, diodes, capacitors, transistors) and devices (e.g., transformers, switches, relays) and their functions
  3. applying formulas and solving problems involving current, voltage, resistance, and power in parallel and series electrical circuits
  4. applying procedures for making measurements in electrical circuits
Competency 008—Understand components and operating principles of motors, engines, and mechanical systems.

For example:

  1. identifying the components and operating principles of internal combustion and electrical motors
  2. identifying types, characteristics, and applications of mechanical components (e.g., cams, gears, pulleys, transmissions, linkages) used in power and energy systems
  3. analyzing the transmission and/or transformation of power and energy in mechanical systems (e.g., pneumatics, hydraulics, gears, pulleys, transmissions)
  4. applying procedures for maintaining, troubleshooting, and repairing motors and engines

 

Domain III—Information and Communication Technology

Competency 009—Understand principles and characteristics of information and communication technology.

For example:

  1. identifying careers, employment opportunities, and job specialties in information and communication technology and their responsibilities and requirements
  2. identifying types of information technology and communication technology industries and their characteristics
  3. identifying major material and service providers in information and communication technology industries
  4. recognizing terminology related to computers and computer networks (e.g., port, server, RAM)
  5. identifying components of computer systems (e.g., peripherals, processing units, BIOS, buses, memory expansion cards) and their functions
  6. demonstrating knowledge of procedures for selecting, operating, troubleshooting, and maintaining computer hardware and software
  7. recognizing the role of computers in technology and technological systems
Competency 010—Understand drafting processes.

For example:

  1. identifying types and characteristics of sketches and drawings used in the design process
  2. identifying and interpreting symbols and lines used in drafting and computer-aided design (CAD)
  3. interpreting technical drawings and their notations (e.g., architectural drawings, isometric drawings, dimensioning, measurements and specifications, tolerances, multiview drawings, section drawings)
  4. applying procedures for producing technical drawings with and without the aid of computer technology
Competency 011—Understand principles and characteristics of graphic communication.

For example:

  1. identifying elements of graphic design (e.g., color, line, proportion, symmetry, typography, layout) and their role in communication
  2. identifying types and characteristics of common digital image formats
  3. identifying processes and procedures related to electronic image preparation and production (e.g., image capture, image editing, image transfer, image assembly)
  4. applying procedures for using computer hardware and software in electronic publishing (e.g., scanners, printers, photo-imaging software, drawing software, computer-aided publishing software, Web page publishing software)
Competency 012—Understand the processes and procedures of electronic communication.

For example:

  1. identifying characteristics and bands of the electromagnetic spectrum (e.g., radio/TV waves, microwaves) and its use in electronic communication
  2. applying procedures for producing multimedia productions (e.g., video production, computer animation, 3-D modeling, titling, digital graphics, audio mixing, Web development)
  3. applying procedures for locating and retrieving information (e.g., Internet search techniques and strategies, database queries and searches, downloading and storing data)

 

Domain IV—Transportation Technology

Competency 013—Understand principles and characteristics of transportation technology.

For example:

  1. identifying careers, employment opportunities, and job specialties in transportation technology, and their responsibilities and requirements
  2. identifying types of transportation systems (e.g., land, air, marine, space, intermodal)
  3. identifying types of transportation industries and describing their characteristics
  4. identifying and analyzing technological problems that exist in transportation systems
  5. recognizing and describing power sources and systems used in transportation
Competency 014—Understand the processes and procedures used in transportation technology.

For example:

  1. identifying technical processes and procedures (e.g., energy storage, propulsion, guidance, control) used in various types of transportation systems (e.g., land, air, marine, space) and their characteristics
  2. identifying appropriate technical processes and procedures, and applying the appropriate scientific principles (e.g., buoyancy, thrust, lift, inertia, momentum, gravitational acceleration) in a variety of transportation situations
  3. applying procedures for managing transportation system vehicles, fleets, and systems (e.g., dispatching, scheduling, routing)
  4. analyzing the use of devices for transmitting and/or transforming power in transportation systems (e.g., pneumatics, hydraulics, gears, pulleys, transmissions)
Competency 015—Understand the appropriate selection and use of resources in transportation technology industries.

For example:

  1. identifying the types and characteristics of materials used in transportation technology
  2. identifying the types and characteristics of tools and equipment used in transportation technology
  3. evaluating a given transportation situation to determine appropriate uses of materials
  4. evaluating a given transportation situation to determine appropriate uses of tools and equipment

 

Domain V—Manufacturing Technology

Competency 016—Understand principles and characteristics of manufacturing technology.

For example:

  1. identifying careers, employment opportunities, and job specialties in manufacturing technology, and their responsibilities and requirements
  2. identifying types of manufacturing industries and describing their characteristics
  3. identifying types of manufacturing systems (e.g., just-in-time, continuous, intermittent, custom, automated) and analyzing their characteristics
  4. analyzing legal and ethical issues related to manufacturing (e.g., environmental regulations, labeling requirements, warranties, OSHA and EPA regulations, product recalls, trade secrets)
  5. identifying appropriate plans of action to take in a given management situation in manufacturing (e.g., resource management, supply chain management, production management)
Competency 017—Understand the processes and procedures of manufacturing technology.

For example:

  1. identifying technical processes used in manufacturing (e.g., casting, forming, combining, conditioning, separating, fastening, finishing, packaging) and their characteristics and uses
  2. applying procedures for selecting appropriate processes and techniques in a given manufacturing situation
  3. evaluating the role of automation in manufacturing (e.g. robotics, computer-aided manufacturing)
  4. analyzing the use of manufacturing processes in a given situation
Competency 018—Understand the appropriate selection and use of resources in manufacturing technology.

For example:

  1. identifying the properties of materials (e.g., wood, glass, masonry materials, metal alloys, polymers) used in manufacturing technology
  2. selecting appropriate materials for a given application based on their properties and/or characteristics (e.g., strength, weight, availability, cost, environmental impact)
  3. selecting appropriate tools, equipment, and materials for a given application
  4. analyzing trends in manufacturing technology and their effects on the selection and use of resources

 

Domain VI—Construction Technology

Competency 019—Understand principles and characteristics of construction technology.

For example:

  1. identifying careers, employment opportunities, and job specialties in construction technology, and their responsibilities and requirements
  2. identifying types of construction industries, their characteristics, and their major material and service providers
  3. identifying legal issues related to construction (e.g., building codes, environmental regulations, permitting regulations)
  4. analyzing building designs and requirements (e.g., location, cost, use, size, zoning)
Competency 020—Understand the processes and procedures of construction technology.

For example:

  1. identifying the characteristics and structural properties of various construction designs (e.g., truss, cantilever, suspension, arch)
  2. identifying principles of project planning and preconstruction (e.g., design, cost estimation, financing, site selection)
  3. identifying processes and procedures used to construct various types of structures (e.g., buildings, bridges, playground equipment)
  4. applying procedures for managing construction projects and construction sites
Competency 021—Understand the appropriate selection and use of resources in construction technology.

For example:

  1. identifying types and characteristics of tools, equipment, and materials in construction technology
  2. selecting appropriate materials for a given application (e.g., carpentry, masonry, plumbing, electrical) based on their properties and/or characteristics (e.g., strength, weight, availability, cost, environmental impact)
  3. selecting appropriate tools and equipment in construction processes
  4. analyzing trends in construction technology and their effects on the selection and use of resources

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