Robotic Kits to Get Any High School Student’s Gears Turning
Robotic Kits to Get Any High School Student’s Gears Turning
Getting kids psyched about robotics is not only for young learners but for high school students as well. High school students can dig into more complex robotics projects that will expose them to STEM fields and stretch their problem-solving capabilities.
Of course, as high school student begin to apply to college and professional jobs, it’s crucially important to show kids at this age how they can become involved in STEM.
Whether high school students are in a classroom or in an independent home setting, they can dramatically improve their aptitude in science, mathematics, technology, and engineering by partaking in a wide range of robotics.
What to Look For…
The next question is how to find a robotic kit for high school students that will fit each student’s academic needs and interests. Some robotics kits focus on computer programming, others to improve mechanical talents, and still others with a focus on design abilities.
Students will also have to consider factors like cost and time allowance. High school students can focus particularly on robot prototypes used in robotics competitions as well as robot models that most closely mimic robots used in the real world: like those used in medicine and technology.
Students should also consider what kind of skills they hope to hone in on via robotics kits for high school students; numerous skills used in robotics can be beneficial for various professional careers.
…if you want to improve your computer programming skills.
Getting high school students interested in robotics kits can start small. In fact, some coding toolkits on a mobile app platform even teach kids to code their own mobile phone games. This is a fun way to introduce kids to coding that will later become an integral part of designing their own robots.
Soon, high school students will start to learn some of the most common languages of computer programming used in robotics such as C/C++, Java, Python, C#/.NET, MATLAB, Assembly and Hardware Description Languages (HDLs).
High school students who choose to pursue code in C++ can first begin learning C coding. The major difference between the two is that C++ can be thought of as a hybrid language that executes procedural and object oriented programming whereas is only procedural. While each program has their strength in the world of robotics, Java and C++ are considered some of the most widely used programs.
Although there are over 1500 computer programming languages on a global scale, getting to know these most popular programs will make students more attractive in an increasingly competitive job market.
…if you want to build on your design talents.
People don’t usually think of roboticists as artists, but in fact, much of their skill relies on their ability to design in regards to aesthetics paired with functionality.
Robotics kits for high school students develop students’ mechanical skills that directly correlate to a profession in engineering.Through independent robot construction, students can better understand the effects of gravity, friction, weight displacement, etc. Although students may initially start their robot building through a trial-and-error process, they’ll build the instinctual skills needed to assess design elements, predict future outcomes, and address setbacks or inconsistencies that are crucial in the engineering profession.
Teaching engineering using robotics kits for high school students doesn’t have to cost a fortune either. Robot developers are constantly competing for cheaper ways to make better products. Students who dig into robotics not only develop basic engineering skills, but can also learn about more specific disciplines like electrical engineering, mechanical engineering, and industrial engineering.
As mechanical engineer trainees, high school students will develop skills in sensor processing, logic circuits, real-time processing, actuators, analog/digital conversion, electromechanical system, and integration.
Industrial engineering skills include problem formulation, structural design, algorithmic design, search strategies, gearing, and drive train.
Electrical and computer engineering require special attention to signal processing, robotic
system design, project management, and analog/digital conversion.
Learning more about the various career disciplines within the engineering field will better equip students to plan for their academic and professional futures in engineering.
…if you want to be creative with your mathematical abilities.
There’s no mistaking that mathematics also play an integral role in creating robots from scratch. For high school students who already have a love of mathematics, this is a great opportunity for them to advance their interests and put their skills to the test. For other students that struggle with math in a traditional classroom setting, finding the perfect robotic kit for high school students can be a chance to uncover hidden talents.
Over time, mathematicians have gotten involved in robotics because of the integration between the two STEM fields. There’s a long list of mathematical skills that relate to robotics. Some are as far stretching as basic problem-solving skills, while other delve into more complex mathematics, the more challenging the robotic kits for high school students become. These more advanced math skills include understanding configuration spaces of closed-chain mechanisms, incorporating advanced algorithms for motion planning, analyzing kinematics, partial differential
equation formulations, and controlling spatial linkage.
Such famous mathematicians as Marsden, Brockett, and Sastry have even used mathematics principles like differential geometry and the Lie theory to build the perfect robot. In this manner, engineers work side by side with engineers who work with frame invariance and invariance used for parameterization.
Science teachers of high school students are always looking for new ways to engage students who may appear unmotivated or discouraged. Robotic kits for high school students are the perfect opportunity to turn students on to STEM fields.
As they approach graduation date, high school students will inevitably begin to consider their college and career prospects. Precisely for this reason, it’s important to expand students ideas of what their future can look like.
So whether students find themselves in the classroom or taking on robotics projects of their own, it’s never too early or too late to dig in and discover.