Standards in this Framework
Standards Mapped
Mapped to Course
Standard | Lessons |
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127.790.d.1.a
identify job and internship opportunities and accompanying job duties and tasks and contact one or more companies or organizations to explore career opportunities |
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127.790.d.1.b
examine the role of certifications, resumes, and portfolios in the computer science profession |
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127.790.d.1.c
employ effective technical reading and writing skills |
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127.790.d.1.d
employ effective verbal and non-verbal communication skills |
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127.790.d.1.e
solve problems and think critically |
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127.790.d.1.f
demonstrate leadership skills and function effectively as a team member |
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127.790.d.1.g
identify legal and ethical responsibilities in relation to the field of computer science |
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127.790.d.1.h
demonstrate planning and time-management skills |
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127.790.d.1.i
compare university computer science programs |
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127.790.d.2.a
use program design problem-solving strategies to create program solutions |
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127.790.d.2.b
read, analyze, and modify programs and their accompanying documentation such as an application programming interface (API), internal code comments, external documentation, or readme files |
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127.790.d.2.c
follow a systematic problem-solving process that identifies the purpose and goals, the data types and objects needed, and the subtasks to be performed |
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127.790.d.2.d
compare design methodologies and implementation techniques such as top-down, bottom-up, and black box |
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127.790.d.2.e
trace a program, including inheritance and black box programming |
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127.790.d.2.f
choose, identify, and use the appropriate abstract data type, advanced data structure, and supporting algorithms to properly represent the data in a program problem solution |
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127.790.d.2.g
use object-oriented programming development methodology, including data abstraction, encapsulation with information hiding, inheritance, and procedural abstraction in program development |
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127.790.d.3.a
use the principles of software development to work in software design teams |
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127.790.d.3.b
break a problem statement into specific solution requirements |
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127.790.d.3.c
create a program development plan |
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127.790.d.3.d
code part of a solution from a program development plan while a partner codes the remaining part |
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127.790.d.3.e
collaborate with a team to test a solution, including boundary and standard cases |
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127.790.d.3.f
develop presentations to report the solution findings |
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127.790.d.4.a
use programming file structure and file access for required resources |
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127.790.d.4.b
acquire and process information from text files, including files of known and unknown sizes |
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127.790.d.4.c
manipulate data using string processing |
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127.790.d.4.d
manipulate data values by casting between data types |
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127.790.d.4.e
use the structured data type of one-dimensional arrays to traverse, search, modify, insert, and delete data |
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127.790.d.4.f
identify and use the structured data type of two-dimensional arrays to traverse, search, modify, insert, and delete data |
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127.790.d.4.g
identify and use a list object data structure to traverse, search, insert, and delete data |
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127.790.d.4.h
differentiate between categories of programming languages, including machine, assembly, high-level compiled, high-level interpreted, and scripted |
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127.790.d.5.a
develop sequential algorithms using branching control statements, including nested structures, to create solutions to decision-making problems |
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127.790.d.5.b
develop choice algorithms using selection control statements based on ordinal values |
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127.790.d.5.c
demonstrate the appropriate use of short-circuit evaluation in certain situations; |
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127.790.d.5.d
use Boolean algebra, including De Morgan's Law, to evaluate and simplify logical expressions |
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127.790.d.5.e
develop iterative algorithms using nested loops |
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127.790.d.5.f
identify, trace, and appropriately use recursion in programming solutions, including algebraic computations |
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127.790.d.5.g
trace, construct, evaluate, and compare search algorithms, including linear searching and binary searching |
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127.790.d.5.h
identify, describe, trace, evaluate, and compare standard sorting algorithms, including selection sort, bubble sort, insertion sort, and merge sort |
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127.790.d.5.i
measure time and space efficiency of various sorting algorithms, including analyzing algorithms using "big-O" notation for best, average, and worst-case data patterns |
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127.790.d.5.j
develop algorithms to solve various problems such as factoring, summing a series, finding the roots of a quadratic equation, and generating Fibonacci numbers |
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127.790.d.5.k
test program solutions by investigating boundary conditions; testing classes, methods, and libraries in isolation; and performing stepwise refinement |
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127.790.d.5.l
identify and debug compile, syntax, runtime, and logic errors |
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127.790.d.5.m
compare efficiency of search and sort algorithms by using informal runtime comparisons, exact calculation of statement execution counts, and theoretical efficiency values using "big-O" notation, including worst-case, best-case, and average-case time/space analysis |
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127.790.d.5.n
count, convert, and perform mathematical operations in the decimal, binary, octal, and hexadecimal number systems |
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127.790.d.5.o
identify maximum integer boundary, minimum integer boundary, imprecision of real number representations, and round-off errors |
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127.790.d.5.p
create program solutions to problems using a mathematics library |
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127.790.d.5.q
use random number generator algorithms to create simulations |
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127.790.d.5.r
use composition and inheritance relationships to identify and create class definitions and relationships |
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127.790.d.5.s
explain and use object relationships between defined classes, abstract classes, and interfaces |
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127.790.d.5.t
create object-oriented class definitions and declarations using variables, constants, methods, parameters, and interface implementations |
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127.790.d.5.u
create adaptive behaviors using polymorphism |
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127.790.d.5.v
use reference variables for object and string data types |
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127.790.d.5.w
use value and reference parameters appropriately in method definitions and method calls |
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127.790.d.5.x
implement access scope modifiers |
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127.790.d.5.y
use object comparison for content quality |
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127.790.d.5.z
duplicate objects using the appropriate deep or shallow copy |
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127.790.d.5.aa
apply functional decomposition to a program solution |
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127.790.d.5.bb
create objects from class definitions through instantiation |
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127.790.d.5.cc
examine and mutate the properties of an object using accessors and modifiers |
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