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Home > Ryan Drum: Clone of EV3 - "Moving Straight"

Ryan Drum: Clone of EV3 - "Moving Straight"

Submitted by Ryan Drum on 14 August, 2019 - 19:05
Overview: 
The goal of this lesson is to have students write their first EV3-G program and learn to use most of the parameters of the Move and Motor blocks. This lesson uses the "Moving Straight" video from the EV3 Trainer (a.k.a. "Introduction to Programming: LEGO MINDSTORMS EV3") product from Carnegie Mellon University's Robotics Academy.
Objectives: 

Students will be able to:

1. Write an EV3-G program for a robot to move straight

2. Control the straight movement of a robot through the EV3-G Move block parameters

3. Explain the role of each parameter in the Move and Motor blocks

4. Calculate the required Move and Motor block parameters for a desired movement

Instruction Guide: 
EV3 - "Moving Straight" [1]
Primary Instructional Material: 
EV3 - "Moving Straight" [2]
Differentiated Instruction Material: Alternative: 
Stemcentric EV3 Introduction [3]
Stemcentric EV3 Action Blocks [4]
EV3 Lessons Moving Straight [5]
EV3 Trainer: Movement 1_Moving Straight_Comp.Book [6]
EV3 Lessons App Moving Straight [7]
Bulldog Productions - Moving Straight Series [8]
Differentiated Instruction Material: Extended: 
Advanced Strategies for Going Straight [9]
The Math for Moving Straight [10]
EV3 Lessons: Moving an Object [11]
Why Doesn't My Robot Drive Straight? [12]
Differentiated Instruction Material: Supplemental: 
Coding Video: The Importance of Learning to Program [13]
EV3 - FLL Coaches Guide: Move Steering Block [14]
LEGO Education "Action/Flow Palettes" Videos [15]
Education Level: 
Middle School [16]
High School [17]
Scope & Sequence: 
Robotics [18]
Focus Subject: 
Robotics Software [19]
HW Platform: 
EV3 [20]
SW Platform: 
EV3-G [21]
Interactivity Style: 
Mixed [22]
Clone Of: 
EV3 - "Moving Straight" [23]



National Science Foundation

Source URL: https://stemrobotics.cs.pdx.edu/node/9804

Links
[1] https://stemrobotics.cs.pdx.edu/node/2933
[2] https://stemrobotics.cs.pdx.edu/node/2934
[3] https://stemrobotics.cs.pdx.edu/node/2996
[4] https://stemrobotics.cs.pdx.edu/node/2997
[5] https://stemrobotics.cs.pdx.edu/node/3319
[6] https://stemrobotics.cs.pdx.edu/node/3812
[7] https://stemrobotics.cs.pdx.edu/node/4753
[8] https://stemrobotics.cs.pdx.edu/node/6211
[9] https://stemrobotics.cs.pdx.edu/node/1175
[10] https://stemrobotics.cs.pdx.edu/node/2942
[11] https://stemrobotics.cs.pdx.edu/node/6409
[12] https://stemrobotics.cs.pdx.edu/node/7952
[13] https://stemrobotics.cs.pdx.edu/node/2404
[14] https://stemrobotics.cs.pdx.edu/node/2940
[15] https://stemrobotics.cs.pdx.edu/node/7276
[16] https://stemrobotics.cs.pdx.edu/taxonomy/term/40
[17] https://stemrobotics.cs.pdx.edu/taxonomy/term/41
[18] https://stemrobotics.cs.pdx.edu/taxonomy/term/141
[19] https://stemrobotics.cs.pdx.edu/focus-area/robotics-software
[20] https://stemrobotics.cs.pdx.edu/taxonomy/term/156
[21] https://stemrobotics.cs.pdx.edu/taxonomy/term/157
[22] https://stemrobotics.cs.pdx.edu/taxonomy/term/26
[23] https://stemrobotics.cs.pdx.edu/node/2668