Learning Resource Type

Classroom Resource

Computer Science Principles Unit 3 Chapter 1 Lesson 1: The Need for Programming Languages

Subject Area

Digital Literacy and Computer Science

Grade(s)

9, 10, 11, 12

Overview

At the beginning of a new unit, we jump right into an activity - building a small arrangement of LEGO® blocks and then creating text instructions a classmate could follow to construct the same arrangement. Groups will trade instructions to see if they were clear enough to allow reconstruction of the original arrangement. The wrap-up discussion is used to highlight the inherent ambiguities of human language and call out the need for the creation of a programming language which leaves no room for interpretation.

Students will be able to:
- assess the clarity of a set of instructions expressed in human language.
- create a set of instructions in human language for building a simple LEGO block arrangement.
- identify connections between the ability to program and the ability to solve problems.
- describe the ambiguities inherent in human language and the ways programming languages seek to remove those ambiguities.

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    Digital Literacy and Computer Science (2018) Grade(s): 09-12

    DLCS18.HS.3

    Differentiate between a generalized expression of an algorithm in pseudocode and its concrete implementation in a programming language.

    Unpacked Content

    UP:DLCS18.HS.3

    Vocabulary

    • pseudocode
    • programming language
    a.
    • approximated
    b.
    • iteration
    • conditional statements
    • control structures
    c.
    • iterative loop
    • selection constructs
    • recursion

    Knowledge

    Students know:
    • that differences exist in pseudocode and a programming language.
    • that programming languages have certain requirements for language and syntax.
    a.
    • that some programs cannot return a result in a reasonable time frame, therefore approximations must be allowed in those cases.
    b.
    • how to identify sequential statements, conditional statements, and/or iterations in code.
    • the differences between sequential statements, conditional statements, and/or iterations.
    • trade-offs exist with using one control structure over another.
    c.
    • some decisions in a program will require the use of iterative loops, selection constructs, or recursion.
    d.
    • programs can be written to satisfy a number of needs such as performance, reusability, and ease of implementation.
    • that most times, algorithms will differ based on the need of the program; performance, reusability, or ease of implementation.
    e.
    • that programs can be written with specific priorities in mind.
    • that there are multiple correct ways to write a program.
    • that solutions are often chosen to meet the priority need of the program.

    Skills

    Students are able to:
    • distinguish between a generalized expression of an algorithm in pseudocode and its concrete implementation in a programming language.
    • point out similarities in vocabulary and syntax between pseudocode and an algorithm.
    • point out differences in vocabulary and syntax between pseudocode and an algorithm.
    a.
    • explain that some algorithms do not lead to exact solutions in a reasonable amount of time and thus approximations are acceptable.
    b.
    • identify sequential statements, conditional statements, and/or iterations in code.
    • identify tradeoffs associated with using one control structure over another.
    c.
    • distinguish when a problem solution requires decisions to be made among alternatives or when a solution needs to be iteratively processed to arrive at a result.
    d.
    • evaluate and select algorithms based on performance, reusability, and ease of implementation.
    e.
    • explain how more than one algorithm may solve the same problem and yet be characterized with different priorities.

    Understanding

    Students understand that:
    • similarities and differences exist in pseudocode and programming code.
    • some programming languages more closely resemble pseudocode than do other programming languages.
    a.
    • due to time or financial constraints, some programs may return an approximation of a solution.
    b.
    • both benefits and drawbacks exist when selecting one control structure over another in a code.
    c.
    • programs can use multiple methods to arrive at a solution.
    d.
    • there are times when a program needs to be selected for a specific purpose, such as performance, reusability, and/or ease of implementation.
    e.
    • multiple algorithms can solve the same problem.
    • algorithms can operate with a specific priority in mind, such as speed, simplicity, and/or safety.
    Digital Literacy and Computer Science (2018) Grade(s): 09-12

    DLCS18.HS.4

    Use and adapt classic algorithms to solve computational problems.

    Unpacked Content

    UP:DLCS18.HS.4

    Knowledge

    Students know:
    • classic algorithms exist that can be used and adapted to meet one's needs.
    • that it can be easier to alter code than to create it from scratch.

    Skills

    Students are able to:
    • use and adapt classic algorithms to solve computational problems.

    Understanding

    Students understand that:
    • algorithms can be altered to fit another use than originally designed for.
    Link to Resource

    CR Resource Type

    Lesson/Unit Plan

    Resource Provider

    Code.org
    Accessibility
    License

    License Type

    Custom
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