Engineering Design Process
Movements
Newton's Laws
Forces and Work
Heat and Energy
100

Requirements of a design to be successful.

Criteria

100

Distance/Time such as km/hr

Speed

100

Every action has an equal opposite reaction.

Newton's 3rd Law

100

A push or pull

Force

100

Energy of motion

Kinetic Energy

200

Limitations or restrictions of a design.

Constraints

200

Speed and direction of an object

Velocity

200

The acceleration of an object depends on the mass and force applied. (F = ma)

Newton’s 2nd Law

200

The energy in joules used as a force moves an object over a distance. 

Work

200

A process that absorbs heat (gets colder)

Endothermic
300

Identifying a problem is the ____ step in the EDP.

1st Step

300

The change in velocity during a period of time

Acceleration

300

An object at rest remains at rest, and an object in motion remains in motion unless acted on by an unbalanced force.

Newton’s 1st Law

300

The equation for work

(Work = Force × Distance)

300

Stored energy because of an object’s position

Potential Energy

400

Trying something over and over again.

Iteration

400

It takes Jay 3 hours to travel 75 kilometers. What is Jay's Speed?

25 km/hr

400
It is harder to throw a large rock than a tennis ball.

Newton's 2nd Law

400

Tyrone is sweating trying to push a large rock but it is not moving. Is Tyrone doing work?

No

400

A process that releases heat (feels hotter)

Exothermic

500

A man is driving on the H-1 towards Ewa Beach at 60 km/hr. What is his velocity?

50 km/hr, west

500

A sleeping dog does not move unless you poke it.

Newton's 1st Law

500
Jax kicks a soccer ball down the road with 5 N of force and it goes 20 m. How much work did Jax do?

100 Joules

500

When a roller coaster is free falling down a drop.

Kinetic Energy 

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