In this problem-based learning module, students will be given the chance to …
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 …
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.
Ce module conmprend des éléments de cours et d'activités pour une introduction …
Ce module conmprend des éléments de cours et d'activités pour une introduction à l'électronique numérique, notamment pour les parties concernant les automates (FSM).
Students kick off the unit with an analysis of images by engaging …
Students kick off the unit with an analysis of images by engaging in a Four Corners activity, in which they begin to unpack the many positive and negative impacts of innovations on communication, infrastructure, and workers’ rights. After this initial analysis, students listen to oral histories, read narrative accounts, and study photos of people and places, to answer the question: How does innovation impact communities in Washington? Throughout the unit, students research a transformative innovation in workers rights, communication, and infrastructure in order to create a thought-provoking photo essay about how their chosen innovation impacts people and places in Washington.
This Problem-Based Learning Assignment addresses the following questions: - When do Americans …
This Problem-Based Learning Assignment addresses the following questions:
- When do Americans have the right to privacy? - Are there ever any circumstances where Americans should give up certain rights to privacy in order to have greater security measures to be protected by the government?
Grabber: a John Oliver video and two articles about snapchat and internet privacy, relevant to students' worlds
Introductory mini lesson is included
In the Culminating Activity students are researching the FBI v. Apple debate. They are split into four group sand must collaborate together to come up with a stance their perspective would agree with alongside historical events in history that support their side.
This project can be used for any teacher talking about money within …
This project can be used for any teacher talking about money within the classroom. This is a fun and interactive way for students to gain real-life knowledge about money.
Inquiry Project PBL lesson plan. Students learn about natural geological forces and …
Inquiry Project PBL lesson plan. Students learn about natural geological forces and how they affect nature. Using this knowledge, hypothesize what the same natural monuments might be like in 100 years from now. Students will make a presentation for information, discuss/debate with other stuents, then write reflection on project and what they learned.
In this problem-based learning module, students will investigate the importance of genetic …
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.
KICTCFT: Teachers can plan and are aware of the practicality of designing …
KICTCFT: Teachers can plan and are aware of the practicality of designing Project Based Learning opportunities. Specific Objectives: On completion of this unit you should be to, 1] Identify and describe ICT tools that support Project Based Learning, and 2] Describe how to structure real-world problems into a project design.
Students begin this unit by exploring the themes of humanity and community …
Students begin this unit by exploring the themes of humanity and community as they discuss the many factors that influence the development of personal identities. They unpack together how we show versus hide different parts of ourselves, and how our identities can be both fixed and ever-changing. Then, students listen to oral histories by Vietnamese Americans to learn how displacement and resettlement have impacted them personally and shaped their outlook on helping others. Using evidence from these firsthand accounts, students answer the question: What can the experiences of displaced people teach us about community, resilience, and humanity? Throughout this unit, students work in teams to create a podcast where they reflect on their collective responsibility to stand in solidarity with displaced people.
Project-based learning (PBL) actively engages learners in authentic tasks designed to create …
Project-based learning (PBL) actively engages learners in authentic tasks designed to create products that answer a given question or solve a problem. When educators act as facilitators and promote projects that are relevant to students as a part of the curriculum, students have agency over their learning, promoting self-efficacy and Motivation through this experiential learning. Working collaboratively on multimodal or cross-disciplinary projects as leaders and team-members can provide opportunities to build on individuals' experiences and strengths. It also can develop learners' collaboration, problem solving, critical thinking, and communication skills while fostering a Sense of Belonging. Educators should recognize that not all students have had previous experience with student-driven learning and may need additional support, including opportunities to participate successfully, and ample time to review materials and make decisions.
This is a PBL project that had students design, build, and explain …
This is a PBL project that had students design, build, and explain an electrical device that would safely and accurately demonstrate their mastery of the principles of electricity and magnetism. It was specifically designed to help students increase their depth of knowledge of electrostatics, electrical circuits, and the fundamentals of electromagnetism and induction. The project required students to design an electrical prototype that (upon safety validation), could be built and used to authentically justify their level of mastery to local engineers, electricians, and other experts from the community. Note that the project was designed and delivered per the North Carolina honors Physics curriculum and it can be customized to meet your own specific curriculum needs and resources.
This is a project that follows the PBL framework and was used …
This is a project that follows the PBL framework and was used to help students master the fundamentals of probability, specifically the laws of probability. Note that the project was designed and delivered per the North Carolina Math 2 curriculum and it can be customized to meet your own specific curriculum needs and resources.
During this problem-based blended learning module students will be designing their dream …
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.
A PBL project I did in my HS physics and math classes …
A PBL project I did in my HS physics and math classes to allow students voice & choice in the design of a maker space my school was building. It followed the Buck Institute model and allowed students to prove mastery in a varitey of learning targets per topics in both courses (probability, geometry, functions, algebra, and trig in geometry and force, energy, electricity & magnetism, etc. in physics). Please feel free to remix this project to suit your own needs.
A PBL project I did in my HS physics and math classes …
A PBL project I did in my HS physics and math classes to allow students voice & choice in the design of a maker space my school was building. It followed the Buck Institute model and allowed students to prove mastery in a varitey of learning targets per topics in both courses (probability, geometry, functions, algebra, and trig in geometry and force, energy, electricity & magnetism, etc. in physics). Please feel free to remix this project to suit your own needs.
In this problem-based learning module, students will work collaboratively to improve the …
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 is a PBL project that used a Rube Goldberg machine as …
This is a PBL project that used a Rube Goldberg machine as the basis for students to understand the concepts of force and Newton's Laws. It was specifically designed to help students increase their depth of knowledge of Newton's Three Laws of Motion, as well as concepts of equilibrium, rotational force (motion and torque), acceleration, and the Universal Law of Gravitation. The project required students to design, build, and then use as a basis to prove their applied mastery of force, a working Rube Goldberg Machine. Note that the project was designed and delivered per the North Carolina honors Physics curriculum and it can be customized to meet your own specific curriculum needs and resources.
Multiple Literacies in Project-Based Learning is a free, comprehensive OER curriculum developed …
Multiple Literacies in Project-Based Learning is a free, comprehensive OER curriculum developed by the George Lucas Education Foundation.Curricula is designed by grade level beginning in 3rd grade and covers the full year of science standards for each grade aligned to the Next Generation Science Standards. Some units have been awarded the NGSS Design Badge by Achieve/NextGenScience which is compelling evidence of high quality, NGSS aligned instructional materials.Materials are designed as PBL or Project-Based Learning units which is a form of inquiry-based learning in which the primary objectives for students include development of the following: their intrinsic motivation, problem-solving skills, the ability to guide their own learning and other metacognitive skills, collaborative skills, and the ability to transfer knowledge, skills, and attitudes to other contexts. Students work alone or in groups on complex tasks organized around central questions that lead to a final product. Teachers play a facilitator role while addressing the principles of inquiry-based learning.The curriculum in free of charge and has been shown through research to be effective with students. The materials are housed on an interactive hub called "Sprocket".
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