ladyboytube DEADLINE: July 14, 2019
Course Details
| Audience | |
| Level | All |
| Instructor | Rochelle Cooper |
| Dates | July 22, 2019 – |
| Earn | 15 PDPs (or option for 1 Credit) |
| Location | 4 Online sessions |
| 老bwbwbwbwbwbwbw Member Cost | $150 |
| Non-Member Cost | $190 |
| Limit | 20 Participants |
| Prerequisites | None |
| Graduate Credit (Optional) |
Rochelle Cooper
Rochelle Cooper has been a certified educator for the past 15 years. She began her teaching career as a special education 1:1 aide and spent the next 10 years as a 5th grade classroom teacher at Lynnfield Middle School. Rochelle received her undergraduate degree in English from Holy Cross College and her Master’s Degree in Teaching from Simmons College. She is currently enjoying her position as the Learning Services Assistant for 老bwbwbwbwbwbwbw
Weekly Outline:
In this four week online workshop, participants will deep dive into the Computational Thinking strand of the
Do It: Create your own activity in the “Activity Factory” based upon the concepts above that can be used and applied in your educational realm.
Share It: Discuss your experiences for the week in a discussion group with your fellow participants. Reflect personally on your learning.
Prove It: Demonstrate your acquired knowledge for this session and show off what you learned in a weekly “Show and Tell”.
Week 1: Abstraction & Algorithms
Week 2: Data
Week 3: Programming & Development
Week 4: Modeling & Simulation
Project Description: Those educators wishing to receive one credit from WSU will be creating a comprehensive portfolio of lesson plans in the area of computational thinking.
This course supports the following 桂林电子科技大学研究生院 Digital Literacy and Computer Science standards:
Grades 3 – 5:
| 3-5.CT.a |
Abstraction |
| 3-5.CT.a. |
Use numbers or letters to represent information in another form (e.g., secret codes, Roman numerals, abbreviations). |
| 3-5.CT.a.2 | Organize information in different ways to make it more useful/relevant (e.g., sorting, tables). |
| 3-5.CT.a.3 | Make a list of sub-problems to consider, while addressing a larger problem. |
| 3-5. |
Algorithms |
| 3-5.CT.b.1 | |
| 3- |
Recognize that different solutions exist for the same problem (or sub-problem). |
| 3-5.CT.b.3 | Use logical reasoning to predict outcomes of an algorithm. |
| 3-5.CT.b.5 |
Detect and correct logical errors in various algorithms (e.g., written, mapped, live action, or digital |
| Data | |
| 3-5.CT.c.1 | Describe examples of databases from everyday life (e.g., library catalogs, school records, telephone directories, contact lists). |
| Collect and manipulate data to answer a question using a variety of computing methods (e.g., sorting, totaling, averaging) and tools (such as a spreadsheet) to collect, organize, graph, and analyze data. | |
| 3-5.CT.d | Programming and Development |
| 3-5.CT.d.1 | Individually and collaboratively create, test, and modify a program in a graphical environment (e.g., block-based visual programming language) |
| 3- |
Use arithmetic operators, conditionals, and repetition in programs. |
| 3-5.CT.d.3 | Use interactive debugging to detect and correct simple program errors. |
| 3-5.CT.d.4 | Recognize that programs need known starting values (e.g., set initial score to zero in a game). |
| 3-5.CT.e | Modeling and Simulation |
| 3-5.CT.e.1 | Individually and collaboratively c |
| 3-5.CT.e.2 | Identify the concepts, features, and behaviors illustrated by a simulation (e.g., object motion, weather, ecosystem, predator/prey) and those that were not included. |
| 3-5.CT.e.3 | Individually and collaboratively use data from a simulation to answer a question. |
Sign Up for This Workshop
Computational Thinking for Elementary Educators- Creating Future Problem Solvers – MA DLCS Series
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