Becoming the Next Bill Nye is about using video production techniques to develop your ability to engagingly convey your passions for science, technology, engineering, and / or math. You’ll have the opportunity to script and on-screen host 5-minute YouTube science, technology, engineering, and / or math-related shows to inspire youth to consider a future in science.

In this lab, students will learn how to read and distinguish different sounds in Korean. They will be able to answer simple yes or no questions.

Students are introduced to the Robotics Peripheral Vision Grand Challenge question. They are asked to write journal responses to the question and brainstorm what information they require to answer the question. Their ideas are shared with the class and recorded. Then, students share their ideas with each other and brainstorm any additional ideas. Next, students draw a basis for the average peripheral vision of humans and then compare that range to the range of two different focal lengths in a camera. Through the associated activity provides, students see the differences between human and computer vision.

In this lab, students will learn how to read and distinguish different sounds in Korean. They will be able to answer simple yes or no questions.NCSSFL-ACTFL Can-Do Statements:I can identify memorized or familiar words when they are supported by gestures or visuals in informational texts.I can express basic preferences or feelings, using practiced or memorized words and phrases, with the help of gestures or visuals.In my own and other cultures I can identify some typical practices related to familiar everyday life.

MASLab (Mobile Autonomous System Laboratory), also known as 6.186, is a robotics contest. The contest takes place during MIT’s Independent Activities Period and participants earn 6 units of P/F credit and 6 Engineering Design Points. Teams of three to four students have less than a month to build and program sophisticated robots which must explore an unknown playing field and perform a series of tasks.
MASLab provides a significantly more difficult robotics problem than many other university-level robotics contests. Although students know the general size, shape, and color of the floors and walls, the students do not know the exact layout of the playing field. In addition, MASLab robots are completely autonomous, or in other words, the robots operate, calculate, and plan without human intervention. Finally, MASLab is one of the few robotics contests in the country to use a vision based robotics problem.

In this lesson, students learn that light travels in a straight line from a light source and that ray diagrams help us understand how an image will be created by a lens. In the accompanying activity, students explore the concepts behind the workings of a pinhole camera.

In a simulation of potential future space missions to Europa, one of Jupiter’s moons, student teams are challenged to direct a robot placed in an enclosed maze to search for and find the most “alien life.” The robot is equipped with a camera to send a live feed of its surroundings in the maze. Students control the robot from outside the maze by looking at the live feed on a smartphone and using the robot’s remote control, making a map as they go. The student teams compete as if they are space agencies creating their own exploratory systems to meet the challenge’s criteria and constraints and prove “in the field” that they have the best plan to win the mission contract and get the job. This activity simulates the real-world research of scientists and engineers developing a robot with the capabilities to explore under the ice-covered surface of Europa.

Ce O.E.R est inspiré du mooc "Faire une vidéo pro avec son smartphone" disponible sur la plateforme Fun Mooc.
This O.E.R is inspired by the mooc "Faire une vidéo pro avec son smartphone" delivered by the plateform Fun Mooc.

In this ISS Science episode learn about the role of photography in space and also see how a photograph is made.

Manipulate light by building pinhole cameras, and by investigating the effects that lenses and prisms have on light.