he cost of healthcare is one of the largest personal expenditures worldwide, …
he cost of healthcare is one of the largest personal expenditures worldwide, with residents of the United States spending upwards of $10,000 each year. A significant portion of healthcare costs in the United States and many other countries comes from paying for prescription medications. This unit is designed to give 9-12th grade chemistry, pharmacology, or biology students an introduction to prescription drug costs and what scientific measures can be taken to lower costs. Topics necessary for this unit include the relationship between structure and function, pH, activation energy, the relationship between temperature and reaction rate, catalysts, inhibitors, among additional concepts. This unit functions as an end-of-year project incorporating all of the topics listed above and challenges students to conduct research, design their own strategy to lower drug costs, and prove their viability and cost-saving potential through calculation. Individually or in pairs students must pick a strategy or technology, spend a day or more researching it, two days writing a research paper on it, one day preparing a class presentation, and one day for presentations. Student’s ability to effectively prove the viability of their strategies/technologies as well as estimate the cost savings to consumers will be weighted heavily.
This is a syllabus for the course "The Age of Human Rights" …
This is a syllabus for the course "The Age of Human Rights" (Capstone course – International Relations & International Law) designed for the University College Groningen (UCG), University of Groningen (the Netherlands). The syllabus is designed by taking into consideration the UCG’s focus on project-based education and it is further inspired by the design thinking approach to education.
This course aims to do two things. Firstly, to provide a good knowledge base on what international human rights are and what mechanisms exist to implement, supervise and enforce them. Secondly, to discuss in a critical manner how international human rights thinking has become inextricably linked to almost all areas of international cooperation. Students are asked to critically analyse specific human rights issues from a multi- or interdisciplinary perspective, thereby drawing upon information from the various disciplinary fields that they have covered in their programmes.
The first part of the course (6 sessions) is used to create the relevant knowledge base through interactive lectures. In the second part of the course (12 sessions), students are asked to work in small subgroups on particular issue areas which will be chosen in consultation with the instructors. The course concludes with a half-day conference on human rights in which the participating students act as panel members (this may be subject to change).
In this unit, students learn about the form and function of the …
In this unit, students learn about the form and function of the human heart through lecture, research and dissection. Following the steps of the Legacy Cycle, students brainstorm, research, design and present viable solutions to various heart conditions as presented through a unit challenge. Additionally, students study how heart valves work and investigate how faulty valves can be replaced with new ones through advancements in engineering and technology. This unit demonstrates to students how and why the heart is such a powerful organ in our bodies
In this seventh grade science Atmosphere and Weather Unit, students will explore …
In this seventh grade science Atmosphere and Weather Unit, students will explore the atmosphere, air and water quality, the water cycle, the greenhouse effect, global warming, climate change, and human-environment interaction through a number of experiments, interactive webquests and projects. They will be exposed to the STEM practices behind growing and agriculture in a hands-on, experiential and experimental life science growing project. They will create terrariums in two-liter soda bottles and will focus on the importance of understanding meteorology and the cycling of water and gasses in and out of the Earth and atmosphere in order to effectively plan, grow and harvest.
This STEM challenge can be used during an air unit. Students are …
This STEM challenge can be used during an air unit. Students are able to find ways to best minimize air resistance. The students are trying to develop a paper airplane that will go the farthest in the class competition.
This STEM challenge can be used during an air unit. Students are …
This STEM challenge can be used during an air unit. Students are able to find ways to best minimize air resistance. The students are trying to develop a paper airplane that will go the farthest in the class competition.
This STEM challenge can be used during an air unit. Students work …
This STEM challenge can be used during an air unit. Students work together in groups to create a parachute for a lego person. Students are able to find ways to best maximize air resistance. The students need to find the best way to increase the time that the lego person stays in the air when dropped from the second floor to the first floor.
This STEM challenge can be used during an air unit. Students work …
This STEM challenge can be used during an air unit. Students work together in groups to create a parachute for a lego person. Students are able to find ways to best maximize air resistance. The students need to find the best way to increase the time that the lego person stays in the air when dropped from the second floor to the first floor.
This STEM challenge can be used during an air unit. Students work …
This STEM challenge can be used during an air unit. Students work together in groups to create a parachute for a lego person. Students are able to find ways to best maximize air resistance. The students need to find the best way to increase the time that the lego person stays in the air when dropped from the second floor to the first floor.
By watching and performing several simple experiments, students develop an understanding of …
By watching and performing several simple experiments, students develop an understanding of the properties of air: it has mass, it takes up space, it can move, it exerts pressure, it can do work.
Students are introduced to measuring and identifying sources of air pollution, as …
Students are introduced to measuring and identifying sources of air pollution, as well as how environmental engineers try to control and limit the amount of air pollution. In Part 1, students are introduced to nitrogen dioxide as an air pollutant and how it is quantified. Major sources are identified, using EPA bar graphs. Students identify major cities and determine their latitudes and longitudes. They estimate NO2 values from color maps showing monthly NO2 averages from two sources: a NASA satellite and the WSU forecast model AIRPACT. In Part 2, students continue to estimate NO2 values from color maps and use Excel to calculate differences and ratios to determine the model's performance. They gain experience working with very large numbers written in scientific notation, as well as spreadsheet application capabilities.
Air pressure is pushing on us all the time although we do …
Air pressure is pushing on us all the time although we do not usually notice it. In this activity, students learn about the units of pressure and get a sense of just how much air pressure is pushing on them.
Students engage in hands-on, true-to-life research experiences on air quality topics chosen …
Students engage in hands-on, true-to-life research experiences on air quality topics chosen for personal interest through a unit composed of one lesson and five associated activities. Using a project-based learning approach suitable for secondary science classrooms and low-cost air quality monitors, students gain the background and skills needed to conduct their own air quality research projects. The curriculum provides: 1) an introduction to air quality science, 2) data collection practice, 3) data analysis practice, 4) help planning and conducting a research project and 5) guidance in interpreting data and presenting research in professional poster format. The comprehensive curriculum requires no pre-requisite knowledge of air quality science or engineering. This curriculum takes advantage of low-cost, next-generation, open-source air quality monitors called Pods. These monitors were developed in a mechanical engineering lab at the University of Colorado Boulder and are used for academic research as well as education and outreach. The monitors are made available for use with this curriculum through AQ-IQ Kits that may be rented from the university by teachers. Alternatively, nearly the entire unit, including the student-directed projects, could also be completed without an air quality monitor. For example, students can design research projects that utilize existing air quality data instead of collecting their own, which is highly feasible since much data is publically available. In addition, other low-cost monitors could be used instead of the Pods. Also, the curriculum is intentionally flexible, so that the lesson and its activities can be used individually. See the Other section for details about the Pods and ideas for alternative equipment, usage without air quality monitors, and adjustments to individually teach the lesson and activities.
Students are introduced to air masses, with an emphasis on the differences …
Students are introduced to air masses, with an emphasis on the differences between and characteristics of high- versus low-pressure air systems. Students also hear about weather forecasting instrumentation and how engineers work to improve these instruments for atmospheric measurements on Earth and in space.
Students learn what causes air pollution and how to investigate the different …
Students learn what causes air pollution and how to investigate the different pollutants that exist, such as toxic gases and particulate matter. They investigate the technologies developed by engineers to reduce air pollution.
Dr. Luke Sollitt from the National Science Foundation (NSF) and the Planetary …
Dr. Luke Sollitt from the National Science Foundation (NSF) and the Planetary Science Institute answers student questions about exoplanets and the telescopes being used to search for them.
Former NASA Mathematician Christine Darden and author of Hidden Figures Christine Darden …
Former NASA Mathematician Christine Darden and author of Hidden Figures Christine Darden discuss the women who shattered glass ceilings in the age of the space race and their lasting impact.
Join teacher Meghan Shaller to debrief the STEM in 30 Episode - …
Join teacher Meghan Shaller to debrief the STEM in 30 Episode - Solving Complex Problems with Simple Machines and learn how she teaches corresponding content in her classroom.
Have you ever wondered what it is like to fly in an …
Have you ever wondered what it is like to fly in an incredibly fast airplane? Find out in this STEM in 30 "Mission Debrief" with SR-71 Navigator Walter Watson!
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