Upper school program guide
Computer Science II: Programming Apps
Download 0.73 Mb. Pdf ko'rish
|
- Bu sahifa navigatsiya:
- Possible Computer Science Sequencing Paths
- Introduction to Public Relations
- Small Business Management: Hillside Cafe
- Functions and Trigonometry
- Accelerated Algebra II
- Algebra II/Trigonometry Honors
Computer Science II: Programming Apps This course allows for tangible practice with the skills developed in the AP Computer Science course. Students use tools and APIs required to build applications for mobile platforms using appropriate SDKs, as well as user-interface designs for mobile devices and unique user interactions with multi-touch technologies. Students work closely with those in the Interactive Design class. Together the students work to create a visually interactive experience for the user. AP Computer Science is a prerequisite to this course.
! 51!
Robotics I The robotics series of classes is designed to teach the engineering and programming processes. This course is the first full-year course in the robotics series. Students taking this course contribute to a team of up to six members as they design, build, and program robots. This engaging process implicitly provides a unique opportunity for students to place engineering design, scientific process, technological literacy, and mathematics in a tangible context.
Students begin by learning to use, troubleshoot, and program the less complicated LEGO MINDSTORMS NXT robot system. The course culminates with students learning how to build and program the more complex NXT-based TETRIX robot system. As a fundamental element of the learning process, students document their experience using a digital design notebook, which mimics an engineering notebook maintained by professional engineers. Completion of Introduction to Robotics is a prerequisite to this course, or students may take this course with approval of the instructor. Such approval is based on students’ having completed a summer robotics program or similar experience.
Robotics II This course is the second course in the robotics series. Students taking this course utilize current methods and processes of design as they learn to create custom parts. This engaging process implicitly provides a unique opportunity for students to place engineering design, scientific process, technological literacy, and mathematics in a tangible context. Students begin by learning to use Computer Aided Design (CAD) software to design robot components. They then learn to use current technology to create parts for the robotics teams as well as for individual projects. Students have the opportunity to earn an industry-recognized CAD certification. (Full year, 1 credit)
The robotics series of classes is designed to teach the engineering, programming, and design processes. The Robotics 3 course is the third full term course in the robotics series. Students taking Robotics 3 utilize current knowledge and methods of robotic design as they learn to create robots capable of competing in the National Underwater Robotics Competition. This engaging process implicitly provides a unique opportunity for students to place engineering design, scientific process, technological literacy, and mathematics in a tangible context. During the course students learn to effectively use more advanced robotic components. Beginning with the announcement of the competitive game, students design, build, and program a robot capable of completing the assigned tasks underwater. Students continue to work as a team to construct and refine the robot. (Full year, 1 credit) Applied Robotics Students design, build, program, and compete with a robot in First Tech Challenge (FTC) competitions. FTC is designed for those who want to compete head to head using a sports model. Teams of up to 10 students are responsible for designing, building, and programming their robots to compete in an alliance format against other teams. Teams, including coaches, mentors, and volunteers, are required to develop strategy and build robots based on sound engineering principles. Enrollment in Robotics I or Computer
! 52!
Science I is a prerequisite to this course. Students may take this course with approval of the instructor, which is based on previous experience. (Winter term course, .50 credit) AP Computer Science This course covers the design and implementation of classes and interfaces, inheritance, data representation such as arrays and array lists, and other data structures. Object- oriented program design, control methods, program testing and debugging, analysis of algorithms, numerical representation and limits, among other topics, are taught. Hardware components, system software, computer systems, and ethical use of these tools are also touched on in this course. Students design programs and write data structures to solve mathematical and non-mathematical problems. Students may take this course with approval of the instructor. (Full year, 1 credit)
Intro to Computer Science Computer Science I
Science
Computer Science II
Intro to Computer Science and
Intro to Robotics Robotics I
Robotics II and Applied Robotics
Robotics III Intro to Computer Science and
Robotics I
Robotics II Robotics III and
Applied Robotics ! ! ! ! 53!
Innovation
This course exposes students to design thinking, research, collaboration, presentation and real-life application. Design Thinking is a process that encourages understanding the human needs of a project; researching problems and working collaboratively to develop possible solutions; building, reviewing and revising prototypes; and watching the design evolve. The goal of the course is for students to partner with members of the faculty and staff to redesign particular aspects of school, such as spaces or processes. Students practice skills of research, data analysis, writing, presentation, and critical thinking to deliver the final product. Students also observe and interview the users in order to develop empathy for the target audience. (Semester, .50 credit)
The goal of this course is to provide students with a framework for pursuing individual academic interests and projects. In order to provide students with time to engage with their interests, students in the course only meet once per cycle for the purpose of building the common skill set and building community. Additionally, students must schedule one- on-one time with the instructor (who functions as the advisor for each project) each cycle in order to receive guidance and feedback on progress.
! Students who are well-suited for the course should feel comfortable with self-directed learning (or who hope to actively grow this skill) and who have a particular topic in mind or a project they have been working on outside of school for which they would like school time and support. Students interested in this course must submit a proposal explaining their topic or project of interest and the goals of the project. Applications are evaluated based on seriousness of purpose and adequate previous demonstration that students can succeed within a flexible learning environment. This course can be taken multiple times throughout grades 9-12, if appropriate. (Semester, .50 credit) !
This course gives students an overview of the public relations industry through project- based assignments similar to what both in-house and agency publicists are doing for their respective companies and clients. A form of marketing, public relations is the practice of managing, and often, working to change public and other stakeholder perceptions. Students learn to identify and target a brand’s relevant audiences and to increase brand awareness through media relations, thought leadership, content and message development, and digital media.
!
work throughout the term is tailored to that brand. Students develop and present a new business proposal for their chosen organization, acting as publicists who are pitching to win the organization’s public relations business. Students also partner with Flint Hill’s Athletic and Fine Arts Departments to assist with the development and release of news from those offices – real-world experience in developing media materials and pitching live journalists. Students also develop a message and promotional strategy around their own “personal brand.” (Fall Semester, .50 credit) !
! 54!
! ! ! Small Business Management: Hillside Cafe
In the inaugural iteration of this course, students immerse themselves fully in the Design Thinking process, engaging in discovery, interpretation, ideation, experimentation, and evolution. Students design a cafe, interview the users (students and staff) about products, propose a budget, and bring the cafe “to life.” Ultimately, students in this course will work to develop small business management skills as they stock, staff, and manage the daily operations of the cafe. Students will be responsible for sales, purchasing, receiving, maintaining inventory, merchandising, public relations, and supervision of baristas and cashiers. Students will plan an orientation for students entering the course in the following semester. Students also work to determine the most appropriate allocation of proceeds from the cafe. (Semester, .50 credit)
! ! ! ! ! 55!
Mathematics
This course is designed for students who will benefit from a slower-paced approach to the fundamental Algebra I course. Students enter this sequence after completing Algebra I Part 1. The objectives, methods of instruction, materials, evaluation methods, and course content are the same as the ones detailed for Algebra I. For each topic, however, more time is allotted for extensive practice and review. This course extends students' knowledge and understanding of the real number system and its properties through the study of variables, expressions, equations, inequalities, and analysis of data derived from real world phenomena. Applications using the calculator are explored and introduced. (Full year, 1 credit) Algebra I This course is an in depth examination of Algebra I concepts using a functions approach. Many topics from the Pre-Algebra course will be reviewed while examining new topics such as linear functions, inequalities, exponents and exponential functions, quadratic equations and functions, polynomials and factoring, rational expressions and radicals. Algebra I extends students’ knowledge and understanding of the real number system and its properties through the study of variables, expressions, equations, inequalities, and analysis of data derived from real-world phenomena. Emphasis is placed on making connections in algebra to arithmetic, geometry, and statistics. (Full
This course develops the deductive thinking skills necessary for mathematical proofs through the study of the postulates and theorems of Euclidean geometry. Logic and analysis, including methods of deductive proof, are stressed in this course. Major topics include: relationships in geometric figures in a plane and in space, congruence, similarities, properties of triangles and polygons, proving parallelograms, parallel and perpendicular lines, planes, circles, area and volume of plane figures and solids, and transformations. Algebraic methods are reviewed and used throughout the course. (Full
This course is identical in content to the course above, with the exception that the coursework will be delivered through a variety of means, such as asynchronous lessons, interactive videos, guided notes, digital whiteboards, and online assessments. Students participate in weekly, synchronous, online, class-connect sessions with live instruction, lesson remediation, and teacher support. Student assignments are teacher-graded, and assessments are computer-scored and teacher-graded. Students take the semester examination on campus with students in the Geometry course. (Online/Blended course, Full year, 1 credit)
! 56!
Geometry Honors This course covers all of the concepts studied in Geometry: relationships in geometric figures in a plane and in space, congruence, similarities, other properties of triangles and polygons, parallel and perpendicular lines, planes, circles, area and volume of plane figures and solids, and transformations. Students are challenged with more thought- provoking problems and a deeper examination of proofs. Creative problem solving and ingenuity are critical skills necessary for the course. The pacing of the course is also faster than that of Geometry. Students are required to meet expectations in understanding, mastery, and independent learning that are quantitatively and qualitatively more challenging than those of Geometry. (Full year, 1 credit)
This course builds upon the fundamental concepts of variables, expressions, equations, and graphs studied in Algebra I. Topics stressed include: properties of real numbers and expressions, the concept of a function, linear equations and inequalities in both one and two variables, systems of linear equations and inequalities (in two variables only), properties of exponents (including rational exponents), factoring and arithmetic of polynomials, properties of radicals and complex numbers, quadratic equations, and rational expressions/equations. (Full year, 1 credit)
This course builds upon the concepts introduced in Algebra II and introduces a number of essential topics from Pre-Calculus. The function topics stressed in this course include: function attributes such as domain, range, increasing, decreasing, average rate of change, extrema, and intercepts; a comprehensive study of the different types of functions including linear, quadratic, exponential, logarithmic and absolute value functions; applications of systems of linear equations and inequalities; combinations of functions and inverse functions. The trigonometric topics stressed in this course include the definition of all six trigonometric functions, solving right triangles and right triangle application problems, the law of sines and cosines, the area of a triangle, basic trigonometric identities, circular trigonometry, the graphs of sine and cosine, and applications of trigonometric functions. In addition, basic algebra skills relevant to these main focus topics is thoroughly reviewed. (Full year, 1 credit)
This course builds upon the fundamental concepts of variables, expressions, equations and graphs studied in first-year algebra. The properties and applications of numbers, graphs, expressions, equations, inequalities, and functions are stressed. In addition, students are introduced to the concepts and applications of triangular and circular trigonometry. Applications of mathematics to real-world problems, effective reasoning skills, and problem-solving strategies are emphasized. The following skills and abilities are given high priority: to make connections between the mathematical concepts studied and other subject areas; to use mathematical language when modeling situations; to effectively and efficiently use a graphing calculator and other applicable technology; and to analyze and avoid common errors. (Full year, 1 credit)
! 57!
Algebra II/Trigonometry Honors This course builds on the fundamental concepts of variables, equations, and graphs studied in first-year algebra. The properties and applications of numbers, graphs, expressions, equations, inequalities, and functions are stressed. In addition, students are also given a thorough grounding in the concepts and applications of triangular and circular trigonometry. Applications of mathematics to real-world problems, effective reasoning skills and problem-solving strategies are emphasized. The following skills and abilities are given high priority: to make connections between the mathematical concepts studied and other subject areas; to use mathematical language when modeling situations; to effectively and efficiently use a graphing calculator and other applicable technology; and to analyze and avoid common errors. Students are required to meet expectations in understanding and mastery that are quantitatively and qualitatively more challenging than those specified for Accelerated Algebra II. (Full year, 1 credit)
This rigorous course builds upon the concepts and skills mastered in Algebra II and Geometry and aims to facilitate a deep understanding of mathematics. This course endeavors to improve students’ ability to analyze and solve sophisticated mathematical problems. Students develop their quantitative, reasoning, algebraic, and graphical skills. This course is designed to prepare students for college level work in mathematics, particularly calculus courses, exploring in detail the concepts and technical skills necessary for analyzing the behavior of functions and their properties. Functions are discussed from an algebraic, numerical, graphical, and application point of view. In addition to functions, a number of other stand-alone concepts are also covered. Instruction on more advanced and appropriate uses of the graphing calculator are also addressed. (Full year, 1 credit)
This course builds upon concepts introduced in algebra and geometry courses, and is designed to prepare students for college level work, specifically AP Calculus. In addition, emphasis is placed on the applications of a graphing calculator, real-world problems, proof, and logical rigor. The course not only covers more than the material in the regular course, but also moves at a faster pace – a new topic is present almost every class meeting. The examples are more challenging, and students are expected to explore unfamiliar ideas independently. (Full year, 1 credit)
This course covers differential calculus, and is primarily concerned with developing students’ understanding of the concepts behind differential calculus and providing experience with its methods and applications. Instead of serving as a first-year college course (as the AP course does), this course is intended to be an introduction to the subject that will make Calculus I in college more familiar to students. The content covers several types of functions, including how they can be used in modeling data; the concept of limits and how it applies to derivatives; various techniques of differentiation; and ways in which differentiation can be applied to real-world problems. If time permits, integral calculus is also introduced. For applicable topics, time is spent using technology as a
! 58!
time-saving device to evaluate derivatives and as an aid in understanding the concepts of calculus graphically. (Full year, 1 credit)
The course develops students’ mastery of the concepts of calculus, with an emphasis on the connections and interrelationships between graphical, numerical, analytical, and verbal representations of each problem and topic they encounter. Another goal is for students to be able to express their solutions to problems in a clear, concise fashion. Students primarily use the TI-83 and TI-84 graphing calculators to assist in solving problems, interpreting their results, and supporting their written conclusions. This course is designed to be at least as comprehensive as the first semester “Calculus 101” course usually taken during the first year of college. For some students, the course allows them to place directly into the second semester calculus course in college; for others, it allows them a chance to place out of calculus altogether and focus their time on other subjects.
This course covers all topics from AP Calculus AB, as well as derivatives of vector and parametrically defined functions, polar coordinates, repeated integration by parts, sequences and series, and elementary differential equations. The content of this course follows the AP syllabus and is equivalent to two semesters of college calculus. (Full year, 1 credit)
Download 0.73 Mb. Do'stlaringiz bilan baham: |
ma'muriyatiga murojaat qiling