Aims to develop a teaching knowledge of the field through extensive reading …
Aims to develop a teaching knowledge of the field through extensive reading and discussion of major works. The reading covers a broad range of topics -- political, economic, social, and cultural -- and represents a variety of historical methods. Students make frequent oral presentations and prepare a 20-page review essay.
This lesson will start with a brief history of robotics and explain …
This lesson will start with a brief history of robotics and explain how robots are beneficial to science and society. The lesson then will explore how robots have been used in recent space exploration efforts. The engineering design of the two Mars rovers, Spirit and Opportunity, will be used as prime examples. Finally, the maneuverability of their robotic arms and the functionality of their tools will be discussed.
Growing from Reframing History, a podcast about history theory and practice, Reframing …
Growing from Reframing History, a podcast about history theory and practice, Reframing Digital Humanities: Conversations with Digital Humanists, Julian Chambliss, Professor of English at Michigan State University, brings together a diverse group of digital humanities practitioners to reflect on theory and practice. From the question of public engagement and knowledge production to considerations of identity and cultural production, the conversations presented in this work shed light on the ways digital humanities offer scholars tools to ask humane questions. Are the benefits promised being achieved? Are the right tools and training available? Are we asking the right questions? In this volume, scholars deeply engaged in using digital tools reflect on their work and this dynamic academic field.
Examines the intellectual foundations of the new discipline of deep sea archaeology, …
Examines the intellectual foundations of the new discipline of deep sea archaeology, a convergence of oceanography, archaeology, and engineering. How best are robots and submarines employed for archaeological work? How do new technologies change operations plans, research designs, and archaeological questions? Covers oceanography, history and technology of underwater vehicles, search strategies, technology development, archaeological technique, sociology of scientific knowledge. Case studies of deep-sea projects include the wrecks of the Titanic and Monitor, Roman trading vessels in the Mediterranean, and deep research in the Black Sea.
Learn about the physics of resistance in a wire. Change its resistivity, …
Learn about the physics of resistance in a wire. Change its resistivity, length, and area to see how they affect the wire's resistance. The sizes of the symbols in the equation change along with the diagram of a wire.
Responsible business practices are widely recognized as Corporate Social Responsibility (CSR). In …
Responsible business practices are widely recognized as Corporate Social Responsibility (CSR). In this course we aim to extend these practices to the Research and Development (R&D) and innovation processes of companies. This is called Responsible Research and Innovation (RRI).
RRI enables companies to anticipate social and ethical issues and integrate them into the innovation and design processes and business strategy right from the start.
This course demonstrates how RRI, as a key element of CSR, can help firms to be innovative, more profitable and at the same time have positive societal and environmental impact.
In this course we analyze the relevance of RRI, including drivers and barriers, for firms of different sizes and in different sectors, and the implications for corporate governance. We show the results and lessons learned from eight pilot studies in innovative businesses across Europe working in different areas (such as nanotechnology, data and automotive) when they integrated RRI in their innovation process and business strategy.
Watch a reaction proceed over time. How does total energy affect a …
Watch a reaction proceed over time. How does total energy affect a reaction rate? Vary temperature, barrier height, and potential energies. Record concentrations and time in order to extract rate coefficients. Do temperature dependent studies to extract Arrhenius parameters. This simulation is best used with teacher guidance because it presents an analogy of chemical reactions.
This subject introduces the history of science from antiquity to the present. …
This subject introduces the history of science from antiquity to the present. Students consider the impact of philosophy, art, magic, social structure, and folk knowledge on the development of what has come to be called "science" in the Western tradition, including those fields today designated as physics, biology, chemistry, medicine, astronomy and the mind sciences. Topics include concepts of matter, nature, motion, body, heavens, and mind as these have been shaped over the course of history. Students read original works by Aristotle, Vesalius, Newton, Lavoisier, Darwin, Freud, and Einstein, among others.
Students learn various topics associated with the circle through studying a clock. …
Students learn various topics associated with the circle through studying a clock. Topics include reading analog time, understanding the concept of rotation (clockwise vs. counter-clockwise), and identifying right angles and straight angles within circles. Many young students have difficulty telling time in analog format, especially with fewer analog clocks in use (compared to digital clocks). This includes the ability to convert time written in words to a number format, for example, making the connection between "quarter of an hour" to 15 minutes. Students also find it difficult to convert "quarter of an hour" to the number of degrees in a circle. This activity incorporates a LEGO® MINDSTORMS® NXT robot to help students distinguish and visualize the differences in clockwise vs. counter-clockwise rotation and right vs. straight angles, while learning how to tell time on an analog clock. To promote team learning and increase engagement, students work in teams to program and control the robot.
Students learn and practice how to find the perimeter of a polygonal …
Students learn and practice how to find the perimeter of a polygonal shape. Using a ruler, they measure model rooms made of construction paper walls. They learn about other tools, such as a robot, that can help them take measurements. Using a robot built from a LEGO® MINDSTORMS® NXT kit that has been programmed to move along a wall and output the length of that wall, students record measurements and compare the perimeter value found with the robot to the perimeter found using a ruler. In both cases, students sketch maps to the scale of the model room and label the measured lengths. A concluding discussion explores the ways in which using a robot may be advantageous or disadvantageous, and real-world applications.
Students learn about probability through a LEGO® MINDSTORMS® NTX-based activity that simulates …
Students learn about probability through a LEGO® MINDSTORMS® NTX-based activity that simulates a game of "rock-paper-scissors." The LEGO robot mimics the outcome of random game scenarios in order to help students gain a better understanding of events that follow real-life random phenomenon, such as bridge failures, weather forecasts and automobile accidents. Students learn to connect keywords such as certainty, probable, unlikely and impossibility to real-world engineering applications.
Students learn about rotary encoders and discover how they operate through hands-on …
Students learn about rotary encoders and discover how they operate through hands-on experimentation. Rotary encoders are applied in tools to determine angle measurements and for translations of angular motion. One common rotary encoder application is in a computer's ball-type mouse—the ball itself is a type of rotary encoder. In this activity, students experiment with two rotary encoders, including one from a computer mouse and one created using a LEGO® MINDSTORMS® NXT kit. They collect data to define and graph the relationship between the motion of the rotary encoder and its output.
How did Rutherford figure out the structure of the atom without being …
How did Rutherford figure out the structure of the atom without being able to see it? Simulate the famous experiment in which he disproved the Plum Pudding model of the atom by observing alpha particles bouncing off atoms and determining that they must have a small core.
Students work as if they are electrical engineers to program a keyboard …
Students work as if they are electrical engineers to program a keyboard to play different audible tones depending on where a sensor is pressed. They construct the keyboard from a soft potentiometer, an Arduino capable board, and a small speaker. The soft potentiometer “keyboard” responds to the pressure of touch on its eight “keys” (C, D, E, F, G, A, B, C) and feeds an input signal to the Arduino-capable board. Each group programs a board to take the input and send an output signal to the speaker to produce a tone that is dependent on the input signal—that is, which “key” is pressed. After the keyboard is working, students play "Twinkle, Twinkle, Little Star" and (if time allows) modify the code so that different keys or a different number of notes can be played.
Add different salts to water, then watch them dissolve and achieve a …
Add different salts to water, then watch them dissolve and achieve a dynamic equilibrium with solid precipitate. Compare the number of ions in solution for highly soluble NaCl to other slightly soluble salts. Relate the charges on ions to the number of ions in the formula of a salt. Calculate Ksp values.
Students use data acquisition equipment to learn about force and displacement in …
Students use data acquisition equipment to learn about force and displacement in regard to simple and complex machines. In the engineering world, materials and systems are tested by applying forces and measuring the resulting displacements. The relationship between the force applied on a material, and its resulting displacement, is a distinct property of the material, which is measured in order to evaluate the material for correct use in structures and machines.
This subject exposes students to a variety of visualization techniques so that …
This subject exposes students to a variety of visualization techniques so that they learn to understand the work involved in producing them and to critically assess the power and limits of each. Students concentrate on areas where visualizations are crucial for meaning making and data production. Drawing on scholarship in science and technology studies on visualization, critical art theory, and core discussions in science and engineering, students work through a series of case studies in order to become better readers and producers of visualizations.
Cryptids, creatures of questionable existence, are used as a source of data …
Cryptids, creatures of questionable existence, are used as a source of data to guide students into the creation of their own GIS data layer in Google Earth. The activity serves the purpose of a tutorial to teach students how to make data layers with a simple subject. Then they use that skill on other topics such as plastics in their neighborhood.
Why do the lights turn on in a room as soon as you flip a switch? Flip the switch and electrons slowly creep along a wire. The light turns on when the signal reaches it.
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