Students prepare for the associated activity in which they investigate acceleration by …
Students prepare for the associated activity in which they investigate acceleration by collecting acceleration vs. time data using the accelerometer of a sliding Android device. Based on the experimental set-up for the activity, students form hypotheses about the acceleration of the device. Students will investigate how the force on the device changes according to Newton's Second Law. Different types of acceleration, including average, instantaneous and constant acceleration, are introduced. Acceleration and force is described mathematically and in terms of processes and applications.
In the first of two sequential lessons, students create mobile apps that …
In the first of two sequential lessons, students create mobile apps that collect data from an Android device's accelerometer and then store that data to a database. This lesson provides practice with MIT's App Inventor software and culminates with students writing their own apps for measuring acceleration. In the second lesson, students are given an app for an Android device, which measures acceleration. They investigate acceleration by collecting acceleration vs. time data using the accelerometer of a sliding Android device. Then they use the data to create velocity vs. time graphs and approximate the maximum velocity of the device.
Students develop an app for an Android device that utilizes its built-in …
Students develop an app for an Android device that utilizes its built-in internal sensors, specifically the accelerometer. The goal of this activity is to teach programming design and skills using MIT's App Inventor software (free to download from the Internet) as the vehicle for learning. The activity should be exciting for students who are interested in applying what they learn to writing other applications for Android devices. Students learn the steps of the engineering design process as they identify the problem, develop solutions, select and implement a possible solution, test the solution and redesign, as needed, to accomplish the design requirements.
This studio will investigate the social, programmatic, tectonic and phenomenological performance and …
This studio will investigate the social, programmatic, tectonic and phenomenological performance and character of a student gathering place on the MIT campus. Whether it is simply for socializing or for more specific events, the student gathering place will serve as a refuge from the vigorous educational environment of the Institute, and it will reinforce a critical sense of “place” through the almost logical organization of its program. The place will foster a casual discovery of “being”: a reflection upon the student’s own existence based upon participation in group events and an intellectual attitude toward acting. To create a space that inspires, rather than imposes: such a discovery is the foremost challenge of this studio.
This is the second undergraduate design studio. It introduces a full range …
This is the second undergraduate design studio. It introduces a full range of architectural ideas and issues through drawing exercises, analyses of precedents, and explored design methods. Students will develop design skills by conceptualizing and representing architectural ideas and making aesthetic judgments about building design. Discussions regarding architecture’s role in mediating culture, nature and technology will help develop the students’ architectural vocabulary.
Students conduct an experiment to study the acceleration of a mobile Android …
Students conduct an experiment to study the acceleration of a mobile Android device. During the experiment, they run an application created with MIT's App Inventor that monitors linear acceleration in one-dimension. Students use an acceleration vs. time equation to construct an approximate velocity vs. time graph. Students will understand the relationship between the object's mass and acceleration and how that relates to the force applied to the object, which is Newton's second law of motion.
Does it matter in education whether or not you’ve got a Y …
Does it matter in education whether or not you’ve got a Y chromosome? You bet it does. In this discussion-based seminar, we will explore why males vastly outrank females in math and science and career advancements (particularly in academia), and why girls get better grades and go to college more often than boys. Do the sexes have different learning styles? Are women denied advanced opportunities in academia and the workforce? How do family life and family decisions affect careers for both men and women?
To study MIT is to study the modern world. In 2016, MIT …
To study MIT is to study the modern world. In 2016, MIT celebrated the 100th anniversary of the move from Boston to Cambridge; therefore, this course examines the history of the Institute through the lens of the history of science and technology, and vice-versa. It is about discovery, exploration, adventure, learning, creative thinking, and the synthesis of big ideas. Additionally, this course is about the importance of the research university, what it has been in the past and what it will be in the future. The course includes guest lecturers and field trips to the Institute Archives and the MIT Museum. The most important prerequisite for this class is curiosity, a desire to think deeply about MIT, and a willingness to communicate your thoughts and ideas. The ultimate aim is to fascinate you as much as to help you improve your skills synthesizing information from diverse sources about science, technology, and culture.
This course examines the history of MIT through the lens of the …
This course examines the history of MIT through the lens of the broader history of science and technology, and vice versa. The course covers the founding of MIT in 1861 and goes through the present, including such topics as William Barton Rogers, educational philosophy, biographies of MIT students and professors, intellectual and organizational development, the role of science, changing laboratories and practices, and MIT’s relationship with Boston, the federal government, and industry. Assignments include short papers, presentations, and final paper. A number of classes are concurrent with the MIT150 Symposia.
Earl Ubell is a pioneer among science and health writers in America. …
Earl Ubell is a pioneer among science and health writers in America. After a long, distinguished career at The New York Herald Tribune from 1943 to 1966, he went on to work at both CBS and NBC News. Prominent in the emerging scientific writing community in the 1950s and early 1960s, he was a recipient of the Lasker Medical Journalism Award 1957. Milton Stanley Livingston was a leading physicist in the field of magnetic resonance accelerators. Working first with professor Ernest O. Lawrence at the University of California, Livingston was instrumental in the development of the Berkeley cyclotron. Moving to Cornell in 1938, Livingston was part of the core group who established nuclear physics as a field of study. Choosing to stay with the Cornell cyclotron rather than follow colleagues onto the Manhattan Project, Livingston was involved in the production of radioisotopes for medical purposes. At the time of this interview, Livingston was director of the Cambridge Electron Accelerator, a joint project of Harvard University and MIT.In this program segment Louis Lyons quizzes Earl Ubell about the lack of public knowledge and the perception of the nuclear bomb, while pressing Professor Livingston to explain exactly what nuclear fallout is, and the danger it presents.
This resource is a video abstract of a research paper created by …
This resource is a video abstract of a research paper created by Research Square on behalf of its authors. It provides a synopsis that's easy to understand, and can be used to introduce the topics it covers to students, researchers, and the general public. The video's transcript is also provided in full, with a portion provided below for preview:
"A research team at MIT has spent years trying to unravel how climate change will affect Earth’s habitability in the future. Using sophisticated computer simulations, they’ve shown that extreme heatwaves will sweep across a region spanning southwest and south Asia, potentially rendering some areas inhospitable to human life. Now, in the third part of this ongoing study, they’ve shifted focus to China – currently the largest emitter of greenhouse gases in the world. Using regional climate models that examine how irrigation impacts surface conditions, the team found that the current pace of greenhouse gas emissions will leave North China Plain, an intensely irrigated region that is presently home to about 400 million people, vulnerable to extreme heatwaves, making it difficult for humans to survive in what is now one of the most densely populated regions on Earth. The reason? Irrigation exacerbates heatwave conditions, worsening the impact of climate change..."
The rest of the transcript, along with a link to the research itself, is available on the resource itself.
This course provides an integrative forum for operations and manufacturing students and …
This course provides an integrative forum for operations and manufacturing students and is the focus for projects in leadership, service, and improvement. It covers a set of integrative manufacturing topics or issues such as leadership and related topics, and includes presentations by guest speakers such as senior level managers of manufacturing companies. The subject is largely managed by students. Primarily for LFM Fellows and Masters students interested in focusing in operations and manufacturing.
This subject examines the role scientists have played as activists in social …
This subject examines the role scientists have played as activists in social movements in the U.S. following World War II. Themes include scientific responsibility and social justice, the roles of gender, race, and power, the motivation of individual scientists, strategies for organizing, and scientists’ impact within social movements. Case studies include atmospheric testing of nuclear weapons and the nuclear freeze campaign, climate science and environmental justice, the civil rights movement, Vietnam War protests, the March 4 movement at MIT, concerns about genetic engineering, gender equality, intersectional feminism, and student activism at MIT. Read a profile of the class “Scientists as Engaged Citizens” by the MIT School of Humanities, Arts, and Social Sciences.
The transition from high school and home to college and a new …
The transition from high school and home to college and a new living environment can be a fascinating and interesting time, made all the more challenging and interesting by being at MIT. More than recording the first semester through a series of snapshots, this freshman seminar will attempt to teach photography as a method of seeing and a tool for better understanding new surroundings. Over the course of the semester, students will develop a body of work through a series of assignments, and then attempt to describe the conditions and emotions of their new environment in a cohesive final presentation.
Students work through an online tutorial on MIT's App Inventor to learn …
Students work through an online tutorial on MIT's App Inventor to learn how to create Android applications. Using those skills, they create their own applications and use them to collect data from an Android device accelerometer and store that data to databases. NOTE: Teachers and students must have a working knowledge of basic programming and App Inventor to complete this lesson. This lesson is not an introduction to MIT's App Inventor and is not recommended for use without prior knowledge of App Inventor to produce an end product. This lesson is an application for App Inventor that allows for the storage of persistent data (data that remains in memory even if an app is closed). This required prior knowledge can come from other experiences with the App Inventor. Also, many additional resources are available, such as tutorials from MIT. This lesson could also be used as an enrichment project for students who are self-motivated to learn the App Inventor software.
This subject examines the unique culture that developed in the United States …
This subject examines the unique culture that developed in the United States after World War II. The dawn of the nuclear age and the ensuing Cold War fundamentally altered American politics and social life. It also led to a flowering of technological experimentation and rapid innovation in the sciences. Over the course of the term, students will explore how Americans responded to these changes, and how those responses continue to shape life in the US today.
For many years, Cambridge, MA, as host to two major research universities, …
For many years, Cambridge, MA, as host to two major research universities, has been the scene of debates as to how best to meet the competing expectations of different stakeholders. Where there has been success, it has frequently been the result, at least in part, of inventive urban design proposals and the design and implementation of new institutional arrangements to accomplish those proposals. Where there has been failure it has often been explained by the inability - or unwillingness - of one stakeholder to accept and accommodate the expectations of another. The two most recent fall Urban Design Studios have examined these issues at a larger scale. In 2001 we looked at the possible patterns for growth and change in Cambridge, UK, as triggered by the plans of Cambridge University. And in 2002 we looked at these same issues along the length of the MIT ‘frontier’ in Cambridge, MA as they related to the development of MIT and the biotech research industry. In the fall 2003 Urban Design Studio we propose to focus in on an area adjacent to Cambridgeport and the western end of the MIT campus, roughly centered on Fort Washington. Our goal is to discover the ways in which good urban form, an apt mix of activities, and effective institutional mechanisms might all be brought together in ways that respect shared expectations and reconcile competing expectations - perhaps in unexpected and adroit ways.
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