Criminology: Fundamentals of Forensic Science   (Contact Us for Mid-term Enrollment)

Quarter(s): 1,2

Day(s): Mon

Open Spots: 0

Students will delve into the world of crime scene investigators (CSIs) as seen each week on Law and Order, NCIS, and the CSI television series! Students will be introduced to the field of forensic science which is the application of science, such as biology, chemistry, pharmacology, and physics, to the criminal justice system. First semester, students will learn the scientific methodologies used in forensic investigation and how to process a crime scene. They will practice measuring, sketching, photographing, documenting, collecting, preserving, and cataloging crime scene evidence. Students will also apply observation skills, interpret evidence, and use logic and deductive reasoning to the investigative process. Each week, students will perform in-class labs and activities to understand common, investigative forensics such as fingerprinting, including identifying fingerprint patterns, and learning how to find and lift latent fingerprints. The class will practice techniques for collecting and analyzing blood and saliva samples, blood typing, and evaluating blood spatter. The class will expand their forensic toolbox with impression evidence, such as footprints and tire tracks, and making molds thereof. They will learn how fibers, fabrics, hair, poison, drugs, pollen, insects, and other trace evidence can be used to unravel a crime. Students will also consider arson evidence, toxicology, and toolmarks in criminal investigative analysis as well as how ballistics, such as firearms evidence and bullet trajectories, are used in investigations. The class will use case studies and forensic data from actual crimes- both solved and unsolved- to see how forensic science is used in investigating and prosecuting cases in the criminal justice system. The class will have occasional guest speakers from the criminal justice system and at least one field trip to a police crime lab. This course is taught by a PhD candidate and professor of Criminology, Tayler Shreve. It is an introduction to criminology for teens who are interested in becoming practitioners or professionals in the vast criminal justice system or those who enjoy true crime books, blogs, or movies. Rating/Advisory: For sensitive students, please note that in the examination of actual crimes, violence such as assault and murder will be discussed. References may be made to illicit substances and weapons used in the commission of crimes. Course content will be filtered to be age-appropriate for high school students in the instructor's judgement. For example, real crime scene photos may be shown with evidentiary details, but not victims or body parts. Students may read autopsy reports, but they will not be shown autopsy photos, and cases of rape will be referred to as sexual assault with no intimate details. Topics in this Series: Fundamentals of Forensic Science (Semester 1) and Cold Case Files (Semester 2). Students continuing from first semester will receive priority pre-registration for second semester. Workload: Students should expect to spend 1-2 hours per week outside of class. Assignments: There are assignments both in and out of the classroom. Students have the ability to submit assignments based on their learning style(s): written assignments, presentations, spoken recordings (podcast, TedTalk, etc.). Assessments: Students will receive feedback on all assignments. There are no exams in this course, however points will be assigned for completed assignments, participation, and attendance. Textbook/Materials: Articles and case studies will be posted by the instructor as downloadable pdfs. Lab/Supply Fee: A lab fee of $100 is due payable to the instructor on the first day of class. Non-Meeting Days: In addition to the scheduled days-off on the published Compass schedule, this class does not meet on 9/23/24. Credit: Homeschool families may wish to count this course as a component (partial) credit in humanities or career exploration for purposes of a high school transcript.

Mastering Microsoft Office: Word & Excel (Certificate Program)   (Contact Us for Mid-term Enrollment)

Quarter(s): 1,2

Day(s): Mon

Open Spots: 1

You might have gone through high school using beginner-level Google tools like Docs, Sheets, and Slides, but to prepare for college and career, it might be time to learn Microsoft Office 365. While Google Workspace applications are generally liked for their ease of collaboration and cloud-based accessibility, Microsoft Office 365 tools are preferred in many majors and industries for their advanced features, refinement, and computing power. Any high school student who plans to pursue a college major in business, science, engineering, or other data-driven field should learn Microsoft Office, and anyone wishing to enter the job market or enhance their resume with recognized credentials as a Certified Microsoft Office Specialist should take this class. Furthermore, any student bound for college or the work world who is not proficient in these computer applications can take this class to catch up on 21st century skills. First semester, students will work through official Microsoft study materials to become certified as a Microsoft Office Specialist (MOS) in Word and Excel. Working in Word will help a student create attractive and professional-looking reports, multicolumn newsletters, resumes, business correspondence. Specific skills covered in the Word Associate curriculum include: managing documents; inserting and formatting text, paragraphs, and sections; managing tables and lists; creating and managing references; inserting and formatting graphic elements; and managing document collaboration. Working in Excel will help as student create and manage worksheets and workbooks that can become professional-looking budgets, financial statements, sales invoices, data logs, and performance charts. Specific skills covered in the Excel Associate curriculum include: creating cells and ranges; creating tables; applying formulas and functions; creating charts and objects; creating and editing a workbook with multiple sheets; and using a graphic element to represent data visually. An additional benefit of this course may be earned college credit. The American Council on Education (ACE) has recommended that MOS certifications in Word, Excel, and PowerPoint be considered as computer application in higher education institutions. 1800 accredited ACE-member, degree-granting colleges, universities, and other education-related organizations may award college credit to students who earned these certifications. Prerequisite: Basic keyboarding skills. Levels: Students who take this course on-level can earn two MOS certifications per semester. Students who take both semesters of this course will additionally qualify as a Microsoft Office Specialist: Associate level for earning at least three certifications. Students who wish to pursue a more rigorous curriculum and designate this as an "honors" level course on their transcript can self-study for the Microsoft Office Specialist: Expert level which requires two additional exams passed at the Expert level (and additional testing fees of $200.) Equipment: Students should bring a laptop to class which has a local copy of Microsoft Office 2019 installed or a current subscription and access to Microsoft Office 365. Course Materials: Students will work from the official Microsoft Office Specialist study guides that will be provided in class and is included in the course tuition Assessment: Students will take computer-based exams for each application: The MO-110: Microsoft Word (Microsoft 365 Apps) and MO-210: Microsoft Excel (Microsoft 365 Apps) during first semester and the MO-310: Microsoft PowerPoint (Microsoft 365 Apps) second semester. If the MO-410 for Microsoft Outlook is released by spring 2025, students will take it, otherwise, they will take the corresponding and near-identical exams for Microsoft Outlook 2019. Testing Fees: A fee of $100 per exam ($200 per semester) is required to take the Microsoft Office Specialist exams. Non-Meeting Days: In addition to the scheduled days-off on the published Compass schedule, this class does not meet on September 23. Credit: Homeschool families may wish to count this course as a component (partial) credit in Career Exploration or Technology for purposes of a high school transcript.

Exercise Science: Fitness & Physiology   (Contact Us for Mid-term Enrollment)

Quarter(s): 1,2

Day(s): Mon

Open Spots: 2

What are the effects of strength training versus endurance training on performance? What is the difference between aerobic and anaerobic exercise? How do you prevent- or recover from- sports related injuries? Questions like these can be answered by a kinesiologist! Kinesiology is the study of human movement which includes aspects of anatomy, physiology, pathology, psychology, sociology, and biomechanics. Kinesiologists look at the effects of exercise to help prevent injury or speed recovery, improve movement and function throughout life, and enhance the quality of life for their patients, clients, or athletes. The study of kinesiology can prepare a student for a career in preventive and rehabilitative exercise and wellness programs, such as physical therapy, occupational therapy, athletic training, or sports medicine. Some use kinesiology as the foundation for careers as physicians, nurses, first responders, nutritionists, chiropractors, osteopaths, orthopedists, personal trainers, coaches, and athletic trainers. First semester is an introduction to the field of kinesiology including a survey of human anatomy and overview of careers and credentialing in the field. Students will learn about the metrics used to measure progress for fitness, strength, or the rehabilitation of injury. They will learn how to check vital signs and perform the basics of a physical exam for an athlete. Students will perform in-class activities and labs such as a bone lab, strength tests, muscular endurance tests, rehabilitation lab, and practice the emergency care for injuries. Students will make at least one visit to the nearby YCMA gym to practice common exercises, including how to instruct others to do them. Note: This course is not a PE class, a health course, or a lab science, but contains elements of each as a career exploration course taught by an adjunct professor of kinesiology and certified athletic trainer.

3D Design & Printing Studio- High School (Fall)   (Contact Us for Mid-term Enrollment)

Quarter(s): 1,2

Day(s): Mon

Open Spots: 2

Students will learn to think like inventors and designers when creating 3D! 3D design is used not only for modeling and fabricating objects but is also at the heart of many cutting-edge technologies such as AR and VR, video game design, interactive exhibits, and more. 3D printing is used in nearly all industries and design fields today from art to animation, manufacturing to medicine, and engineering to entertainment. In this class, students will first learn to use Tinkercard, a 3D modeling software that works in solid forms (like LEGO bricks). Then, students will transition to MeshMixer, a software that creates smooth, curved, organic shapes (like clay). They will learn to think about their design from all angles and how to subtract forms to create holes, voids, and concave features, and add forms to create projections, contours, appendages, and convex details. They will discover the limitations of 3D printing and how to handle overhanging elements or delicate details. Students will practice the artistic design process with simple sketches before diving into the software. They will be encouraged to use reference material, whether photos, a model, or even by modifying existing, public domain 3D files. Students will use an iterative printing process in which they print their project, check it for design intent, functionality, or fit, make modifications, and print again. The class will learn how to save and convert between 3D solid object files (.stl) and object files (.obj) and work with metadata fields to protect the intellectual property of their designs. To demonstrate the range and capability of 3D-printed designs, favorite student projects include D & D miniatures, cosplay props, Minecraft-designed creations, and beloved characters such as anime, baby Yoda, and Pokemon creatures. Second semester, continuing students will progress to more complex assemblies including multiple parts and parts with hinges. Second semester, some students may wish to work with alternative filaments such as TPU (rubber), metal, or magnetized filament. Because of the studio format, new students can enroll second semester. The class instructor is a design engineer with 3D Herndon and expert in 3D technologies and other areas of design and invention. A typical class will be structured with 5-10 minutes of lecture or demonstration of a new design skill, followed by 40 minutes of design "studio" time where students can receive trouble-shooting support and design tips from the instructor and have dedicated work time, and 5-10 minutes of sharing time at the end of class. As a studio class, students will work on individual projects at their own pace. Topics in this Series: As an open studio for individual projects, students may continue from one semester to the next or enroll mid-year. Students continuing from first semester receive priority pre-registration for second semester. Prerequisites: None What to Bring:Students will need to bring a laptop to class for design work. Workload: Students should expect to spend 0-1+ hours per week outside of class. Assignments: Project criteria will be explained in class to students. Assessments: Informal, qualitative feedback will be given in class throughout the semester as the student works. Lab/Supply Fee: A class fee of $25.00 is due payable to Compass on the first day of class for 3D printing and filament. This provides the student with 800 g of printed product per semester. Students who are prolific designers and print often will be asked to pay an additional $5.00 per 100 g or fraction thereof. Credit: Homeschool families may wish to count this course as a component (partial) credit in Visual Arts, Technology, or Career Exploration for purposes of a high school transcript.

3D Design & Printing Studio- Middle School (Fall)   (Contact Us for Mid-term Enrollment)

Quarter(s): 1,2

Day(s): Mon

Open Spots: 1

Students will learn to think like inventors and designers when creating 3D! 3D design is used not only for modeling and fabricating objects but is also at the heart of many cutting-edge technologies such as AR and VR, video game design, interactive exhibits, and more. 3D printing is used in nearly all industries and design fields today from art to animation, manufacturing to medicine, and engineering to entertainment. In this class, students will first learn to use Tinkercard, a 3D modeling software that works in solid forms (like LEGO bricks). Then, students will transition to MeshMixer, a software that creates smooth, curved, organic shapes (like clay). They will learn to think about their design from all angles and how to subtract forms to create holes, voids, and concave features, and add forms to create projections, contours, appendages, and convex details. They will discover the limitations of 3D printing and how to handle overhanging elements or delicate details. Students will practice the artistic design process with simple sketches before diving into the software. They will be encouraged to use reference material, whether photos, a model, or even by modifying existing, public domain 3D files. Students will use an iterative printing process in which they print their project, check it for design intent, functionality, or fit, make modifications, and print again. The class will learn how to save and convert between 3D solid object files (.stl) and object files (.obj) and work with metadata fields to protect the intellectual property of their designs. To demonstrate the range and capability of 3D-printed designs, favorite student projects include D & D miniatures, cosplay props, Minecraft-designed creations, and beloved characters such as anime, baby Yoda, and Pokemon creatures. Second semester, continuing students will progress to more complex assemblies including multiple parts and parts with hinges. Second semester, some students may wish to work with alternative filaments such as TPU (rubber), metal, or magnetized filament. Because of the studio format, new students can enroll second semester. The class instructor is a design engineer with 3D Herndon and expert in 3D technologies and other areas of design and invention. A typical class will be structured with 5-10 minutes of lecture or demonstration of a new design skill, followed by 40 minutes of design "studio" time where students can receive trouble-shooting support and design tips from the instructor and have dedicated work time, and 5-10 minutes of sharing time at the end of class. As a studio class, students will work on individual projects at their own pace. Topics in this Series: As an open studio for individual projects, students may continue from one semester to the next or enroll mid-year. Students continuing from first semester receive priority pre-registration for second semester. Prerequisites: None What to Bring:Students will need to bring a laptop to class for design work. Workload: Students should expect to spend 0-1+ hours per week outside of class. Assignments: Project criteria will be explained in class to students. Assessments: Informal, qualitative feedback will be given in class throughout the semester as the student works. Lab/Supply Fee: A class fee of $25.00 is due payable to Compass on the first day of class for 3D printing and filament. This provides the student with 800 g of printed product per semester. Students who are prolific designers and print often will be asked to pay an additional $5.00 per 100 g or fraction thereof. Credit: Homeschool families may wish to count this course as a component (partial) credit in Visual Arts, Technology, or Career Exploration for purposes of a high school transcript.

Medical Mission: Emergency Essentials (On-Level EMR, Honors EMT)   (Contact Us for Mid-term Enrollment)

Quarter(s): 1,2

Day(s): Mon

Open Spots: 1

Physician. Physical Therapist. Phlebotomist. Paramedic. Did you know that the Healthcare Industry makes up more than 18% of the US economy and employs 20 million workers in the US? Chances are that several Compass teens will work in this field. This course is designed to give students an overview of the healthcare field and a foot in the door to begin work as an Emergency Medical Responder (EMR) or Emergency Medical Technician (EMT). First semester will cover the Emergency Essentials that every EMR/EMT must know: stopping bleeding, starting care, and stabilizing a patient. Students will learn what to do in trauma, mass casualty, or hazardous materials incidents where the victims are bleeding or have broken bones, wounds, or head injuries. Every class will include practical, hands-on skills training and labs such as using a tourniquet, applying dressings, and splinting. Throughout the course, the class will learn medical terminology and aspects of human anatomy related to Emergency Essentials. They will use critical thinking skills to reason through problems they might encounter during emergencies. Finally, they will discover how HIPPA, privacy, consent, and legal issues play in the EMR/EMT's role and how these emergency responders interface with law enforcement, hospitals, and other specialties in the community. EMRs/EMTs are first-on-the-scene, frontline healthcare workers. In Virginia, individuals age 16 or older who earned their license can volunteer or be hired to work on an ambulance, a private medical transport service, or as an assistant or technician in clinical settings. Work as an EMR/EMT can be a young adult's full time job, side gig through college, or help them earn clinical hours that advanced medical programs want to see. Topics in this Series: Emergency Essentials (Semester 1), Crisis Care (Semester 2). Students continuing from first semester receive priority pre-registration for second semester. Prerequisite: Students must have completed a workshop in CPR prior to taking this course and will be asked to provide a copy of their certification. An option is the Compass 2-day. 6-hour First Aid/CPR training on June 10 and 11. Alternatively, this Instructor can conduct an outside CPR workshop for $80.00 per student. Levels/Certification: Students under age 16 may enroll in this class, but they must be age 16 by October 1 in order to sit for the EMR or EMT exam in the spring of 2025. Students must take both semesters to prepare for an exam. This class will be taught at two levels concurrently: On-Level which prepares students for the EMR exam and Honors which prepares students for the EMT exam. Both levels meet together for all classes and perform the same in-class activities and labs. Those on the Honors track will have additional readings for EMT preparation. Students may also enroll in this class for one semester as an elective (i.e. non-exam track). They may also take the class for knowledge and experience with no obligation to take the exam. Students who wish to take this at the Honors level and continue the EMT track must have a class average of 80% at the end of the first semester to be approved for Honors level second semester. Students who have less than an 80% average may continue the second semester course at the on-level, or EMR, track. Students on the Honors EMT track may need additional review or test prep sessions with the instructor prior to the exam. Workload: On-level (EMR) students should expect to spend 2-3 hours per week outside of class on reading assignments and chapter questions. Honors (EMT) students should expect to spend 5-6 hours each week outside of class on reading assignments, chapter questions, and review. Assignments: Students will be assigned 1-2 chapters each week to read at home each week so class time can be dedicated to the practice of hands-on skills. Assessments: The instructor will give short quizzes to ensure that students are keeping up with their reading, which is necessary to prepare for the exam. In addition, students will be "signed off" and approved on hands-on skills throughout the course. The National Registry Exam will be administered in May 2025. Textbook/Materials: Students should purchase or rent Emergency Care and Transportation of the Sick and Injured Essentials Package 12th Edition by AAOS (ISBN # 978-1284227222) Supplies: Students should purchase the following items and bring to class each week:

• Lightning X Small First Responder Stocked EMT Trauma Bag (student's choice of 7 colors) on Amazon.

https://www.amazon.com/dp/B010G2I3PU/?coliid=I18ZZZ79D6Z0EF&colid=1BQJV62J905ZD&ref_=lv_ov_lig_dp_it&th=1 Lab/Supply Fee: A supply fee of $30.00 is due payable to the instructor for consumable and in-class supplies and equipment. What to Bring: Students should bring their textbook, notebook/paper, pen or pencil, and medical kit to class each week. What to Wear: Students should wear comfortable clothing that would allow them to participate in occasional demonstrations on the floor. Credit: Homeschool families may wish to count this course as a full credit in Science, Health, Elective, or Career Exploration for purposes of a high school transcript.

Design & Construction: Building Basics  Closed

Quarter(s): 1,2

Day(s): Mon

Open Spots: 2

From stunning stadiums and ostentatious offices to soaring skyscrapers and massive malls, public projects and humble homes, not a day goes by that you do not interact with the work of architects and builders! You may think of hardhats and shovels when you envision construction, but did you know that behind the scenes, there is a vast team of professionals who design, engineer, finance, manage, staff, schedule, estimate, insure, inspect, furnish, and build these structures in a thriving $1.1 trillion industry? Design and construction of buildings represents a dynamic, fast-paced field to consider a career in. First semester, students will learn about the comprehensive process from concept design to completion of construction for buildings. Students will try their hand at basic drafting and will examine simple blueprints to understand the 2D representation of building elements. Teams will build structures out of simple materials to test the strength of different shapes. Materials matter. The class will explore and experiment with the literal building blocks that define structures. From concrete and steel to aluminum and glass, each material has its unique properties and potentialities. Students will examine how material choices impact durability, aesthetics, cost, and environmental sustainability. The class will be challenged to think about all the components that go into buildings and will complete in-class labs and activities to test and evaluate construction materials. As examples, they will mix and test a small batch of concrete and consider the effect on strength of embedding reinforcing steel. Students will complete a lumber lab to understand dimensions and strength, and they will experiment with soil types such as stone, sand, and clay to demonstrate how these conditions dictate the design of foundations. The class will look at elements of the building envelope, finishes, and MEP (mechanical, electrical, and plumbing systems) to understand these fundamental building systems. This course is designed to inspire tomorrow's designers and builders and create an awareness and interest in the design and construction industry. Students will gain insights into the project management, collaboration, and problem-solving critical in these fields. This class will overview trends, innovations, and sustainability practices and will meet the team of stakeholders including owners, municipalities, architects, engineers, construction managers, trade contractors, and many others. Topics in this Series: Building Basics (Semester 1) and Foundations to Finish (Semester 2). Students continuing from first semester receive priority pre-registration for second semester. Workload: Students should expect to spend 1-2 hours per week outside of class on assignments. Assignments: All assignments will be posted on password-protected Canvas classroom management site. There, students access assignments, download articles, upload homework, track points earned, and message instructor and classmates. Assessments: Will not be given. Lab/Supply Fee: A class fee of $40.00 is due payable to the instructor on the first day of class. What to Bring: Notebook or paper, pen or pencil. Non-Meeting Days: This is a 10-week course that begins on September 30. There is no class meeting on 9/9/24, 9/16/24, or 9/23/24. Credit: Homeschool families may wish to count this course as a component (partial) credit in Career Exploration or an Elective for purposes of a high school transcript.

LEGO Robotics Training Team (S1)   (Contact Us for Mid-term Enrollment)

Quarter(s): 1,2

Day(s): Mon

Open Spots: 2

LEGO Robotics Training Team is a semester-long "boot camp" and training ground for future FIRST LEGO League (FLL) competitors. The Training Team allows Compass students to work through a complete FLL challenge to ensure that they understand the project and enjoy the process before joining a competition team. Training Team students are sub-divided into smaller teams that compete against each other in building and coding challenges at a more relaxed pace than FLL competition teams which may require 6-10+ hours per week.

Compass Training Team members will complete a full FLL challenge from a previous year. They will learn 21st century skills in robotics and programming while enjoying the camaraderie of working as a team to solve challenges. Kids will gain confidence and build skills in leadership and communication. The Training Team members will compete in-house against each other, but will not participate in a regional competition in 2024-25.

FIRST LEGO League (FLL) is an accessible, guided, beginners' robotics program that encourages teamwork, discovery, innovation, and problem-solving. The FLL competition is comprised of three components: the Robot Game, an Innovation Project, and Core Values. The Robot Game is an annual theme-based challenge that encourages kids to think of technology solutions to real-world problems. Teams design and program an autonomous robot that scores points on a themed table-top playing field. Past challenges have been inspired by environment, transportation, accessibility, and exploration. FLL team members engage in brainstorming, research, design, and coding while practicing the engineering design process of building, testing, re-building, re-testing, etc. Students will work with LEGO Mindstorms EV3 robotics components and use drag-and-drop coding blocks to program their robots on laptop computers. No robotics or programming experience is necessary to join the Training Team, but it is beneficial if students have experience building with LEGO Technics components (beams, gears, and axel pins rather than bricks with studs).

FLL members have fun with friends, encourage and support each other, and learn the art of gracious competition. In addition to the robot challenge, FLL team members compete in short, on-the-spot challenge problems in the Innovation Project phase of the competitions. FLL is also known for its philosophies of "professionalism" and "cooperation" which are expressed in the organization's Core Values of discovery, innovation, impact, inclusion, teamwork, and fun. Teams are also judged on how well they promote and exhibit these core values.

Submersible Robotics: Remote Operated Vehicle (ROV)   (Contact Us for Mid-term Enrollment)

Quarter(s): 1,2,3,4

Day(s): Mon

Open Spots: 0

How do you explore the 139 million square miles of the earth's surface that is ocean when only 25% of the seafloor has been fully mapped? From finding shipwrecks to observing marine life, exploring hydrothermal vents to performing underwater inspections, and carrying out critical search, rescue, and recovery missions, submersible robots known as ROVs, or remotely operated vehicles, are up to the task. In this class, students will work in pairs to build, test, redesign, and deploy a small ROV called a SeaPerch. SeaPerch is an "innovative underwater robotics" program sponsored by the Office of Naval Research, NOAA Ocean Education Cooperative Institute, and RoboNation. Working from a kit of stock components, students will first build and test-drive the base model SeaPerch while learning about topics like buoyancy, hydrodynamics, propulsion, and displacement. Teams will learn basic circuitry and how to solder electronic components, first with a light-up practice circuit board, then by assembling, soldering, and wiring the control board for their ROV. Once teams have assembled their SeaPerches, the class will meet at a nearby community pool for their first in-water trial. Students will test their assemblies and practice their skills of driving and maneuvering their ROV underwater. Next, it will be back to the classroom workshop to make modifications to their designs, and back to the pool for the iterative design-build-test-modify engineering process. Once teams have fully functional "stock" SeaPerches and understand how decisions such as the placement of propellers and floats affect performance, they will modify and customize their designs while adding features such as hooks or arms to perform underwater tasks. Ultimately, the SeaPerch ROVs will go through an underwater hoop obstacle course and complete challenges like gathering rings from the pool floor. Students will gain an understanding of challenges faced by scientists and engineers in underwater applications and will be exposed to careers in mechanical engineering, electrical engineering, marine/nautical engineering, marine sciences, oceanography, and more. In class, they will learn to use hand tools such as a ratcheting PVC cutter, wire cutter, wire stripper, soldering iron/solder, solder removal tool, clamps, screwdrivers, and more. They will also work with waterproofing, adhesives, and fasteners. Teams will be encouraged to keep an engineering design notebook with sketches, performance data, observations, and modifications. Each team will be required to prepare and submit a Technical Design Report using a template and rubric, and the teams will against other Compass teams. Students who wish to add enhancements to their final build such as enamel paint, more powerful motors, lights, sensors, depth gauge, or underwater camera, may purchase their own accessories at a hobby or electronics store to install in class. (Enhancements cannot exceed $25.00 to remain eligible for the SeaPerch regional competition.) Schedule: This is a 24-week program that will conclude on March 31, 2025 with a small competition and parent showcase. Note: Parents should anticipate 3-4 class sessions to be held at the nearby Reston YMCA pool and plan for transportation there (0.9 miles). Workload: Students should expect to spend 0-1 hours per week outside of class. Assignments: Assignments, if any, will be communicated in class and limited to individual investigation. Assessments: Will not be given Textbook/Materials: None Lab/Supply Fee: There is a $155.00 supply fee due payable to Compass for students who are willing to work with a partner (and flip a coin who keeps the ROV). Alternatively, a student could opt to pay $235.00 for their own SeaPerch which they would build individually and keep at the end of the program. Credit: Homeschool families may wish to count this course as a partial credit in technology or career exploration for purposes of a high school transcript.

Robotics Challenge Lab (Sem1)   (Contact Us for Mid-term Enrollment)

Quarter(s): 1,2

Day(s): Mon

Open Spots: 3

Students will explore the science and technology of robotics in an open workshop environment. They will work in pairs by experience level and interests to plan, conceptualize, build, program, and test a robot of their own design. Student partners will set their own design and performance criteria for their robot. Will it be one that plays a game, gathers data, or completes a mission using custom code that the team has written and tested? This laboratory is open to beginners as well as returning students with prior experience. The class will focus on construction and programming, with the goal of having functional robots by the end of the semester. There will be an emphasis on the engineering-design process with repeated build-test-redesign iterations until the robot performs as expected. Student pairs will be encouraged to think creatively and apply problem-solving skills to find unique solutions to their scenario. Groups will move at their own pace, and completed robots may have different levels of complexity depending on the experience of the team. An experienced electrical engineer who was a robotics competitor and coach will serve as a mentor and facilitator during the lab. He will not teach formal lessons but will instead circulate among the partner teams to trouble-shoot and offer advice on hardware and software issues, spending more time with newer builders and programmers. Students will enjoy the collaboration and camaraderie that comes from watching the successes, missteps, and eventual solutions of other teams. They will build with Tetrix Prime metal robotics components, incorporate sensors [such as, ultrasonic distance, infrared (IR) proximity, mini-LIDAR (laser radar), touch, line-following, color- sensing, or sound sensors], electronics, and motors from Tetrix Prizm, and code using the Arduino IDE. Students do not get to keep finished projects. Note: Students continuing from first semester receive priority pre-registration for second semester. Prerequisite:Prior experience with robotics and coding are not required. Workload: Students should expect to spend 0-1 hours per week outside of class. Assignments: Assignments, if any, will be communicated in class and limited to individual investigation. Assessments: Will not be given Textbook/Materials: None Lab/Supply Fee: None. Credit: Homeschool families may wish to count this course as a partial credit in technology or career exploration for purposes of a high school transcript.

Biology: Lecture (On-Level or Honors) **Online**   (Contact Us for Mid-term Enrollment)

Quarter(s): 1,2,3,4

Day(s): Mon

Open Spots: 0

This is a place-holder for the Principles of Biology lecture. Students should register for the Principles of Biology Lab, which will automatically enroll them in both class sections. A physical meeting room will be designated for on-campus students who have classes immediately before or after this virtual session.