Students will demonstrate knowledge of visible light interactions with different materials and …
Students will demonstrate knowledge of visible light interactions with different materials and through different mediums (air, solids, and water). Students will use Sphero Bolt to create a flashlight. The goal is to create the brightest light from the LED lights on the Sphero BOLT. Students will need to understand how light interacts with different substances to successfully create the brightest flashlight. They will also test their lights in water to see how waves change direction and speed in different mediums. The Light intensity will be measured using the function in google science journal.
Students learn that fats found in the foods we eat are not …
Students learn that fats found in the foods we eat are not all the same; they discover that physical properties of materials are related to their chemical structures. Provided with several samples of commonly used fats with different chemical properties (olive oil, vegetable oil, shortening, animal fat and butter), student groups build and use simple LEGO MINDSTORMS(TM) NXT robots with temperature and light sensors to determine the melting points of the fat samples. Because of their different chemical structures, these fats exhibit different physical properties, such as melting point and color. This activity uses the fact that fats are opaque when solid and translucent when liquid to determine the melting point of each sample upon being heated. Students heat the samples, and use the robot to determine when samples are melted. They analyze plots of their collected data to compare melting points of the oil samples to look for trends. Discrepancies are correlated to differences in the chemical structure and composition of the fats.
In a hands-on way, students explore light's properties of absorption, reflection, transmission …
In a hands-on way, students explore light's properties of absorption, reflection, transmission and refraction through various experimental stations within the classroom. To understand absorption, reflection and transmission, they shine flashlights on a number of preselected objects. To understand refraction, students create indoor rainbows. An understanding of the fundamental properties of light is essential to designing an invisible laser security system.
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