As diseases become stronger in nature, currently available antibiotics are no longer strong enough to suppress and cure said diseases. Therefore, what factors contribute to diseases becoming resistant to drugs and what public policies should be developed around them? In this problem-based learning module, students will work with partners or in groups to first assess the increasing problem of drug-resistant diseases and the toll they are taking on the American public. Additionally, students will work to investigate what hospitals and lawmakers are doing to address this problem. Once students understand and are familiar with the current state of affairs, they will then work to further understand and research exactly why this issue needs to be brought to the attention of the general public, in order to promote change to current hospital procedures and policies. Further, students will determine the current political climate and support (or lack thereof) for policy, and will analyze the interest in keeping, changing or removing said policies altogether. Once the group has a full understanding, students will then work to determine their position on the issues surrounding antibiotic resistant diseases and the policies associated with these diseases. As soon as the group reaches a consensus, students will work to research and determine a professional way in which to present their goals and objectives for curbing the issue of drug-resistant diseases.
Search Results (55)
Antibiotics save people’s lives...and make bacteria stronger and more likely to kill us. What is the best practice to balance these conflicting issues? In this problem-based learning module, the students will be evaluating real-life medical situations in conjunction with actual staff at those institutions and offering action plans to be ‘implemented’ there. In order to accomplish this, the science unit will be interlocking with social studies and a language arts unit that will have them identifying target audiences and sculpting a way to present their findings. This unit has the potential to be a full problem-based unit as well as highly interdisciplinary--it’s connected to full units in social studies and language arts which stand alone but can be fully integrated if desired.
In this problem-based learning module, students will ‘dig’ for fossils in a digital environment, using the advanced graphing techniques of line-of-best-fit and piecewise functions to look for different kinds of trends in the health of the history of the earth. They will apply this information to their knowledge of the laws of superposition and index fossils to form a complete analysis in the historical health as well as to predict where we are going in the future.
In this problem-based learning module, students will be asked to brainstorm ideas and think innovatively both independently and collaboratively in addressing a real-world problem that is relevant to their daily lives and health. Are students aware of their calorie intake and how it affects their overall health? Students will investigate the calories consumed in a typical day and how much physical activity is needed to stay healthy and fit. Students/teams will be encouraged to use the internet for research purposes in their design phase. Students will utilize various online platforms to design an infographic that can be shared with relevant individuals in the community and others in the school building
In this online learning module, you will: 1: Understand blended learning models2: Learn to design blended learning experiences
This problem-based learning module is designed to master the Ohio Learning standard of Science in Earth and Space Science number 2, Cycles and Patterns of Earth and the Moon. Thermal-energy transfers in the ocean and the atmosphere contribute to the formation of currents, which influence global climate patterns. Students will be exploring the various factors affecting the climate patterns we experience due to thermal energy. Students will work independently as well as with a partner. The final product is expected to be presented to their peers and teachers. This blended module includes teacher-led instruction, student-led stations, real world data analysis and technology integrated investigations.
In this problem-based learning module, students will use their knowledge of the ancient Roman Empire and will work to analyze critical theories historians agree contributed to the fall of Rome. Students will then work to compare the problems faced by the Romans with problems citizens of the United States still largely face today. Through this investigation, students should recognize how modern technology, government agencies, laws and resources help to solve societal problems that could have once destroyed an empire. With this new understanding, students should work to present a solution to a major problem that plagued the Roman Empire during the years leading up to its collapse.
In this problem-based learning module, students will use their knowledge of the ancient Roman Empire and will work to analyze critical theories historians agree contributed to the fall of Rome. Students will then work to compare the problems faced by the Romans with problems citizens of the United States still largely face today. Through this investigation, students should recognize how modern technology, government agencies, laws and resources help to solve societal problems that could have once destroyed an empire. With this new understanding, students should work to present a solution to a major problem that plagued the Roman Empire during the years leading up to its collapse.Remix Resource uses key South Carolina standards for 6th Grade Social Studies and Language ArtsOriginal Resource uses key Ohio standards for 7th Grade Social Studies and Language ArtsAuthor: Blended Learning Teacher Practice Network Date Added: 07/23/2018License: Creative Commons Attribution-NonCommercial 4.0 Language: English Media Format: Audio, Downloadable docs, Graphics/Photos, Text/HTML
How can we conduct scientific research so that we have evidence to support a claim?Students in this problem-based learning module are invited to design a testable question to guide Scientific Research, Evaluate the pH of various solutions, Identify Variables, Conduct a Scientific Investigation, and Analyze/Communicate results. How can we conduct scientific research so that we have evidence to support a claim? Antacid tablets are a multi-billion dollar industry. Claims are made regularly by certain brands that their extra strength tablets contain “DOUBLE the acid neutralizing power per tablet of regular strength antacids.” How effective are antacids? Are double-strength antacids twice as effective as regular strength antacids? Have you ever noticed a parent/guardian/family member take an antacid tablet? Stomach chemistry is about acids and bases. When the pH of a stomach is too acidic then it might make the person have a stomach ache. In some cases “heartburn” or “acid reflux” are used as terms to describe the problems some people face. Antacids are usually basic which, when taken, might help raise the pH level in a stomach thus making a person feel better.You are invited to design an investigation with a partner, or a team of 4 students, to test your own idea about the effectiveness of antacids. The challenge? Have a driving question, clear variable identification, and an analysis of your results. Materials for your test will be provided to you by your teacher. At the culmination of your investigation your design team will make a 30-second pitch on your phone to show at your family Thanksgiving meal to explain the benefits (or negatives) of using antacids, and how antacids work.
While studying the Articles of Confederation government and the Constitutional Convention in this problem-based learning module, the students will determine the benefits of peacefully changing an inept government. They will deduce the crucial steps needed for peaceful change to happen within a society. An area of research will be chosen to help solve a problem critical to the students’ middle school lives. Feedback will be gathered through a video interview or a Google Form survey of crucial stakeholders. Students will research the alternatives to improve upon their selected problem. Students will present their findings to a decision maker and wait to receive feedback.
Are we teaching what we think we are teaching?""Are students learning what they are supposed to be learning?""Is there a way to teach the subject better, therefore promoting better learning?"In problem based learning, assessment needs to not only reflect the learning process but the content being learned as well.This online learning module will explore the following learning targets: •Identify how formative and summative classroom assessments are integral to instruction.•Recognize and develop high-quality performance assessments for evaluating student work.•Recognize and develop high-quality rubrics for evaluating student work.
Why is it important that students be careful what is posted for everyone to see? Students will investigate and discuss these questions during this module that directly relate to their daily life. Students will work cooperatively in groups to design an infomercial to be presented to elementary students and/or parents and community members. Key Learning Targets: I can use technology to produce and publish my work, and link to sources.I can include multimedia projects or visual displays when they will be helpful in clarifying and emphasizing information.I can actively participate and contribute to a discussion with my teacher and my peers. I can present my findings to a group or audience in a clear and concise way.I can create a storyboard to prepare a public service announcement. I can compare contrast trends of technology. I can write an explanatory paragraph to examine a topic (present and future digital footprint).
In this problem-based learning module, students will investigate why is it important that students be careful what is posted for everyone to see. Students will investigate and discuss these questions during this module that directly relate to their daily life. Students will work cooperatively in groups to design an infomercial to be presented to elementary students and/or parents and community members. Key Learning Targets: I can use technology to produce and publish my work, and link to sources.I can include multimedia projects or visual displays when they will be helpful in clarifying and emphasizing information.I can actively participate and contribute to a discussion with my teacher and my peers. I can present my findings to a group or audience in a clear and concise way.I can create a storyboard to prepare a public service announcement. I can compare contrast trends of technology. I can write an explanatory paragraph to examine a topic (present and future digital footprint).
In this problem-based learning module, students will explore the importance of sleep and the impact sleep has on their lives. During the launch phase students can choose to record sleep data via downloaded apps or in a sleep diary. Days 2 through 4 have students explore the concept and necessity of living organisms need to sleep. On day 2 the participants will take a series of cognitive test for baseline data. Through station rotation and a jigsaw activity learners will become familiar with circadian rhythm and sleeping disorders. Finally, days 5-7 have the students produce a video or infographic to communicate the importance of sleep and its relationship to performance both physically and academically.
In this problem-based learning module, students will work together collaboratively to establish questions and develop these questions into claims after being presented with the problem “How are today’s living standards contributing to the drug resistance disease crisis and what needs to be done to begin to reverse the effects of the contributing factors?” The students will then work collaboratively to continue researching and will use the research to create a collaborative electronic public service announcement to go along with an individually written letter which will be sent to either a state representative, the FDA, lead community personnel, etc. Both products, the PSA and the letter will include their well defined claim, supported with evidence and backed up with reasoning.Prior to beginning module, please note: Module can be completed in isolation, or can be completed in conjunction with modules "Antibiotic Resistance and Antibiotic Policy" (science) and/or Advancing Change through Public Awareness (social studies) as part of a full interdisciplinary unit between 8th grade social studies, language arts and science. This would allow for students to have a wider array of questions to guide their claims and the students could build the PSA in social studies and write the letter in Language Arts.
This unit uses roller coaster design as a method of teaching students about energy types, energy conservation, and the design process. At the end of this Unit, students critical thinking and problem-solving skills should be strengthened.
- Material Type:
- Lesson Plan
- North Carolina State University
- Provider Set:
- Kenan Fellows Program for Curriculum and Leadership Development
- Miriam Morgan
- Date Added:
A hospital is an integrated system of physicians, other hospitals, outpatient services, and more. Each element is connected and significant in providing an exceptional healthcare experience. Through a series of lessons, students will serve as members of the hospital team, utilizing the mission, vision and values of the healthcare system to solve a patient puzzle.
- Health, Medicine and Nursing
- Material Type:
- Lesson Plan
- North Carolina State University
- Provider Set:
- Kenan Fellows Program for Curriculum and Leadership Development
- Rachel Lawrence
- Date Added:
"What can we learn about science and technology--and what can we do with that knowledge? Who are "we" in these questions?--whose knowledge and expertise gets made into public policy, new medicines, topics of cultural and political discourse, science education, and so on? How can expertise and lay knowledge about science and technology be reconciled in a democratic society? How can we make sense of the interactions of living and non-living, humans and non-humans, individual and collectivities in the production of scientific knowledge and technologies? The course takes these questions as entry points into an ever-growing body of work to which feminist, anti-racist, and other critical analysts and activists have made significant contributions. The course also takes these questions as an invitation to practice challenging the barriers of expertise, gender, race, class, and place that restrict wider access to and understanding of the production of scientific knowledge and technologies. In that spirit, students participate in an innovative, problem-based learning (PBL) approach that allows them to shape their own directions of inquiry and develop their skills as investigators and prospective teachers. At the same time the PBL cases engage students' critical faculties as they learn about existing analyses of gender, race, and the complexities of science and technology, guided by individualized bibliographies co-constructed with the instructors and by the projects of the other students. Students from all fields and levels of preparation are encouraged to join the course."
In this problem-based learning case, three housemates in an environmentally-themed college house debate the pros and cons of compact fluorescent lamps (CFLs) over incandescent lamps. The students raise issues of the cost difference between the lamps (both in the short and long term), energy use and greenhouse gas production in the manufacture and use of the lamps, and the mercury content in CFLs and the risks that poses to people and the environment. Students are asked to identify the information needed to evaluate the choice between the two lamp types, and then use a published life-cycle analysis to find and evaluate that information. To conclude, they make a decision and argue for it using quantitative evidence and reasoning. The case was developed for an intermediate-level course designed to help environmental studies students understand the role of scientific information and scientific thinking in resolving complex environmental problems.
In this problem-based learning unit, the Class will discuss what it means to be empathetic. Then, situations in which empathy is necessary will be role played. Students will then roll 2 dice, one die will determine their audience and the other die will determine the task they are to create a solution to. Sample audience and tasks include creating a tool to access an out of reach object for a child, vision impaired, or person in a wheelchair. Students will hand draw prototypes and then utilize a free online 3D modeling application to design their solutions for sharing.
Throughout this problem-based learning module students will address real world skills. Students will be asked to brainstorm ideas and think innovatively both independently and collaboratively in addressing a real-world problem that is relevant to their daily lives and surroundings. Students/teams will be encouraged to use the internet for research purposes in their design phase. What components should be included for a modern, updated classroom? Students will utilize various online platforms to design an ideal, modern, contemporary “dream classroom”. Students will incorporate components that would meet the needs of all learners and a classroom that would be able to integrate technology. These classrooms can be shared with relevant individuals in the community and others in the school building.
Throughout this problem-based learning module students will address real world skills. Students will be asked to brainstorm ideas and think innovatively both independently and collaboratively in addressing a real-world problem that is relevant to their daily lives and surroundings. Students/teams will be encouraged to use the internet for research purposes in their design phase. What components should be included for a modern, updated classroom? Students will utilize various online platforms to design an ideal, modern, 21st century “dream classroom”. Students will incorporate components that would meet the needs of all learners and a classroom that would be able to integrate technology. These classrooms can be shared with relevant individuals in the community and others in the school building.
In this problem-based learning module, students will research the needs vs wants of a typical family in the US. They will also research the basic bills a typical family pays throughout a month, create a budget plan for a fictional family assigned to each group, and present budgets to authentic audience.
In this problem-based learning module, students will be given the chance to plan their idea of the perfect party. They are given a budget of $2,500, this is the maximum amount of money they can use. The goal is for students to plan a party that they think people would want to attend and would enjoy being a part of. The students will need to come up with categories of what their party will need (food/drink, decorations, entertainment, location, etc). These will then be the stations students will move at their own pace through to complete the party planning. At each station they will need to identify what they are doing to have/do for the party and how much it will cost. They will then have to figure out the unit cost (cost per person) for that category. The final station should allow for students to find the total cost of their part and total unit cost per person for the party. If the total cost exceeds $2,500 students should make adjustments as needed.Students will then create an advertisement (commercial, flyer, poster etc.) to promote their party as the “PARTY OF THE YEAR!”Students will then present these advertisements to school staff, parents, administrators etc. to vote on the party they would want to throw for their own child. They should take into consideration cost per person, entertainment, and enjoyment of the party.
In this lesson, students will come up with a sketch of their plan for their ice cube cooler, build a cooler, and investigate how this cooler solves their ice cube melting problem. Students will then identify strengths and weaknesses in their designs as well as identify improvements they could make in the future.
In this module, students are asked to explore artist representations inspired by how the “self” works in society. By exploring the elements of introspection through various art and media, students are asked to create a multimedia expression of who they are. Using their personality, likes, dislikes, values, and anything else that helps them identify, they create their own introspective representation. Standards:CCSS English Language Arts (Grade 8)Ohio Standards for Technology
In this problem-based learning module, students will investigate the importance of genetic diversity will be explored by examining several case studies revealing consequences that can occur in individuals within a limited gene pool and how a variety of genes can lead to the survival of a species. Students will be able to create and interpret information from pedigree charts.
During this problem-based blended learning module students will be designing their dream bedroom as well as creating a scale drawing of the items they chose to be in their bedroom. The launch activity introduces the students to Scale City, which is a video that explores scale models in the real world. Students are then given dimensions for a fictional bedroom to furnish with items of their choosing. Price is not considered in this module, but a budget could be introduced as an extension of the module. Students will then spend time researching items that they would want to place in their bedroom with the area constraints given. Students will have the opportunity to provide each other peer feedback on their bedroom designs. Once students have a rough idea of their bedroom design, they will spend some time creating a scale drawing of their bedroom on graph paper. This will give students the opportunity to use a scale factor to create a scale drawing. Students will again be provided feedback on their designs and be given time to reflect and redesign as needed. If students need extra time to practice using a scale factor and creating scale models, a station rotation lesson has been included as an optional resource.
In this problem-based learning module, students will work collaboratively to improve the accessibility or safety of their school or community. For example, students could identify that accessibility ramps need to be added to the school property or additional sidewalks need to be created/repaired to increase the safety of students as they walk to school. Students would work together to create models of these improvements and create a communications plan that informs the stakeholders of the materials needed to create these improvements (i.e. using volume to determine the amount of concrete, using angles to determine measurements for ramps, etc..).
This online module will explore strategies to increase student ownership and motivation in your classroom.
“Breakout” or “Escape” rooms have become extremely popular for children and adults as an entertainment option to have fun and use teamwork to solve a puzzle in a designated amount of time. The Mystery Escape! problem-based learning module leads student groups through designing their own puzzle based on Chemistry and Periodic Table of Elements. The culmination of the Module invites students to crack codes to unlock 4 locks that give a clear answer. “Can YOU escape peril?”
This problem-based learning module is designed to engage students in solving a real problem within the community. The question being “How can I help my community get digitally connected?” Students will choose to investigate one of three solutions of making wifi available in our school district to the most populated areas. They will either choose to put Wifi on bus, placing hotspots in the community or using kajeet. The students will be using Google Earth Pro to place circles on a map and calculating the area of these circles. Students will make a model of these circles onto a hard copy using scale factor. At the conclusion, the students will present findings to administration, the board of education, state and local leaders as well as their peers. These findings can be presented through the choice of a display board, flyer, video production or prezi.This blended module includes teacher-led discussion, group-led investigation and discussions along with technology integration.
This lesson plan is a Problem-Based Learning Lesson Plan, which means that the students will work together in groups to complete portions of the lesson. There are also portions of the lesson that require individual work, but they always share their findings with their classmates, whether in person or online.
This lesson is about germs, bacteria, and communicable diseases. The students will learn about germs and how to prevent the spread of germs. They will also learn how germs and bacteria cause communicable diseases. The students will participate in several activities, and they should have a solid grasp of the subjects by the time they complete the culminating, or final, activity.
This online learning module will explore the following learning targets: 1: Understand the foundations of problem-based learning2: Learn the phases of a problem-based learning module3: Understand the shifts of teachers and students in a problem-based learning classroom
This document contains information about the driving question, grabber, and culminating activity used in a problem-based learning activity for a high school chemistry class. It also includes a rubric that can be used for evaluating student presentations and a template to guide the preparation of the presentation. This activity can be used to introduce and enhance understanding of gas behavior and thermodynamics.