Technology Resources
Technology Systems
Development
100

Identify the Term: Something that gives us help or aid to a system.

Resource

100

Define System

A system is made of parts that work together to complete a task.

100

Identify the Term: the part of the system that measures and controls the outcomes of the system.

Feedback

200

Identify the Term: The ability you develop when you combine knowledge and practice in order to perform an activity well.

Skill

200

Define Subsystem

Subsystems are smaller systems that exist within a larger systems.

200

Identify the Term: limits on a product’s design.

Constraints

300

How many simple machines are there?

6

Pulley, Lever, Wheel and Axle, Wedge, Screw, and Inclined Plane

300

True or False: A jet engine is one of many subsystems of an airplane.

True

300

Identify the Term: requirements or specifications for a product to be successful.

Criteria

400

Define Primary Tools

Primary Tools are basic handheld tools that increase a person’s ability to hold, cut, drill, bend, and hammer materials. Without these tools, more complex technology would never happen.

400

Define an Open Loop System and Identify it's 3 Parts

An Open Loop System is when a system has no way to measure or control its product.

Ex: stoves, traffic lights, old-fashioned bathtubs

They cannot be shutdown by themselves.

3 Parts: Input, Process, Output

400

Identify the difference between Optimization and Trade-Offs

Optimization = Making the most of the positive features while reducing the negative ones.

Trade-Offs = a compromise--you give up one thing in order to gain something else. Many involve cost.

500

What are the 7 Technology Resources?

1 - People

2 - Information

3 - Tools and Machines

4 - Capital

5 - Time

6 - Materials

7 - Energy

500

Define a Closed-Loop System

A Closed-Loop System is an open-loop system with an added feature that provides you with up to date information about your end product (output).

500

Identify the Term: the rule that states systems, processes, and products should not grow beyond an optimal or ideal size. The larger and more complex a system is, the harder it is to keep it working properly and control the way it functions.

Beanstalk Principle

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