An introduction to functions in Python.

Prior knowledge of variables, assignments, expressions, input-output, lists, conditionals, and loops is recommended.

For CS0 students. Part of the CUNY CS04All project.

Comments
Lecture slides come in three formats and separate files, as well as three programs-examples.

All the images used in the slides are CC0 licence, packed in the imgs.rar archive together with the information about them

In-class work, HW assignment, assessment questions together with all the programs are in the Activities_and_Assignments.rar archive.

Python If-else branches, equality and relational operators, and some additional topics: Boolean operators and expressions, membership and identity operators.

Prior knowledge of variables, assignments, and expressions is recommended.

For CS0 students. Part of the CUNY CS04All project.

Comments
Lecture slides come in three formats and separate files.

In-class work, HW assignment, assessment questions together with all the programs are in the Activities_and_Assignments.rar archive.

The following topics are discussed:

Development Environment
Basic input and output
Variables and assignments
Python expressions
Division and modulo
Math module
For CS0 students. Part of the CUNY CS04All project.

Comments
Lecture slides come in three formats, examples of programs are included in Instructor Materials.rar.

In-class work and assessment questions together with all the programs are in the Activities_and_Assignments.rar archive.

A brief introduction to Python list.

No loops, no decision structures.

For CS0 students. Part of the CUNY CS04All project.

The following topics are covered:

While Loops
For Loops
Nested loops
Break and continue
Loops else
enumerate()
Applications: Turtle library with loops and decision procedures.

Prior knowledge of variables, assignments, expressions, input-output, lists, and conditionals is recommended.

For CS0 students. Part of the CUNY CS04All project.

Comments
Lecture slides come in three formats, are are packed into Instructor_Materials.rar along with programs accompanying the lecture slides.

In-class work, HW assignment, assessment questions together with all the programs are in the ActivitiesAndAssignments.rar archive.

An introduction to Python strings and string formatting.

Proposed lecture slides are supplied with in-class activity, homework assignment, and assessment.

No loops, no decision structures.

For CS0 students.

Part of the CUNY CS04All project.

Delve into a microscopic world working with models that show how electron waves can tunnel through certain types of barriers. Learn about the novel devices and apparatuses that have been invented using this concept. Discover how tunneling makes it possible for computers to run faster and for scientists to look more deeply into the microscopic world.

We use eigenvector-eigenvalue analysis to walk through a simple quasispecies model described in Bull, Meyers, and Lachmann, "Quasispecies made simple," PLoS Comp Biol, 1(6):e61 (2005). The dominance of a genotype depends, not merely on its ability to breed quickly (i.e. the rudimentary concept of survival of the fittest), but also on its ability to breed "true."

"Quizizz is a free tool. It works on any device: web browser, iOS, Android and Chrome apps. You can access hundreds of ready-made learning quizzes or create your own. Join as a teacher, pick a quiz, and use the code for a virtual room to give to your students."

The way you make a quiz, you host it and then you see them playing it on their mobile phones/tablets or laptops with the Scoreboard Seen Live on the Screen/Projector in the Class makes it a real happy classroom. The extra-edge comes with the Music that is being played by the App or the Website during the quiz.

The additional features about creating a quiz are more beneficial and good with the Quizizz. You can download an excel sheet from Quizizz and enter the questions as guided in this format. While using the desktop version, you can upload this .csv and the quiz is generated. Another excellent feature is to TELEPORT the questions from Pre-made quizzes. Click on teleport after cresting name of the quiz. On the right side of the screen you see that there are many quizzes opened and you can add a question to your quiz, just by clicking ADD.

How does energy flow in and out of our atmosphere? Explore how solar and infrared radiation enters and exits the atmosphere with an interactive model. Control the amounts of carbon dioxide and clouds present in the model and learn how these factors can influence global temperature. Record results using snapshots of the model in the virtual lab notebook where you can annotate your observations.

Context, purpose and audience. There are two broad types of assumptions that designers must identify and address: the first type are assumptions they, as designers, have as they begin a project; the second type are assumptions that are ambient in the project context–assumptions that many of the project stakeholders either hold or frequently experience. In both cases, naming the assumption and developing an articulation for how that assumption can be reconsidered can help direct a project toward greater impact.

This lesson is designed to help participants reframe these two types of assumptions. It can be used with design students from high school to continuing (adult) education. It is best delivered towards the end of the initial phase of design research (“Empathize” phase, to use the parlance of Stanford), after students have conducted interviews and other forms of research.

The lesson offers five reframe patterns. These are meant to help students identify particularly powerful articulations of reframed assumptions by providing five different jumping-off points for ideation. The patterns are best introduced and used lightly: as provocations rather than as a formula to rigidly follow.

We illustrate these reframe patterns using examples from disability studies. Thus, this lesson also serves as a “trojan horse” to infuse core design justice concepts.

This collection of 103 individual sets of math problems derives from images and data generated by NASA remote sensing technology. Whether used as a challenge activity, enrichment activity and/or a formative assessment, the problems allow students to engage in authentic applications of math. Each set consists of one page of math problems (one to six problems per page) and an accompanying answer key. Based on complexity, the problem sets are designated for two grade level groups: 6-8 and 9-12. Also included is an introduction to remote sensing, a matrix aligning the problem sets to specific math topics, and four problems for beginners (grades 3-5).

Use a virtual scanning tunneling microscope (STM) to observe electron behavior in an atomic-scale world. Walk through the principles of this technology step-by-step. First learn how the STM works. Then try it yourself! Use a virtual STM to manipulate individual atoms by scanning for, picking up, and moving electrons. Finally, explore the advantages and disadvantages of the two modes of an STM: the constant-height mode and the constant-current mode.

In the activities included below, students will closely examine images related to the Human Rights theme. Students will make connections to informational and literary texts that expand their understanding of global issues and their rights as citizens of the world. The activities included ask students to reference specific literary and informational texts, however, all activities may be adapted to fit with a number of different texts that touch on the same topics and issues.

This course examines the science of natural catastrophes such as earthquakes and hurricanes and explores the relationships between the science of and policy toward such hazards. It presents the causes and effects of these phenomena, discusses their predictability, and examines how this knowledge influences policy making. This course includes intensive practice in the writing and presentation of scientific research and summaries for policy makers.

Explore your own straight-line motion using a motion sensor to generate distance versus time graphs of your own motion. Learn how changes in speed and direction affect the graph, and gain an understanding of how motion can be represented on a graph.

Semiconductors are the materials that make modern electronics work. Learn about the basic properties of intrinsic and extrinsic or 'doped' semiconductors with several visualizations. Turn a silicon crystal into an insulator or a conductor, create a depletion region between semiconductors, and explore probability waves of an electron in this interactive activity.

This module is part of the course "Intro to Mechatronics" at Lawrence Technological University and was developed through seed funding from theCAAT. This module consists of a PowerPoint presentation and accelerometer LabVIEW lab. Discussed in the Power Point are automotive sensors, actuators, and their use in powertrain (energy use, drivability and performance), body (occupant needs), and chassis (vehicle handling and safety). Some of the types of these sensors are rotational (crank or cam position), pressure (EVAP system or MAP), exhaust gas (oxygen sensor), and actuators (air bag inflators, relays, and injectors). Also included is a section on DC and AC motors operation and their automotive applications (traction motor, window motor, and seat motor). The lab will introduce students to developing data acquisition for sensors using National Instruments LabVIEW software. For instructors who would like solutions to the lab, pleasecontact theCAAT.

This Excel spreadsheet assignment brings students step-by-step through the process of solving and analyzing a Keynesian cross model. It is most appropriate for principles-level macroeconomics courses.

In a toy model of a cell, protein X is produced according to a translation rate coefficient and eliminated according to a degradation rate coefficient. The protein copy number at which the rates for these processes balance is called the steady-state level, and the time it takes for a cell initially containing zero copies of protein X to accumulate half the steady-state level is called the _ŃŇrise time._ѝ Surprisingly, the "rise time" depends on the degradation rate coefficient only. The classic textbook presentation of this topic is found in Alon, An Introduction to Systems Biology: Design Principles of Biological Circuits, Boca Raton: Chapman & Hall/CRC, 2007 (p. 18-22).