Focusing primarily on the period since 1500, explores the influence of climate, …
Focusing primarily on the period since 1500, explores the influence of climate, topography, plants, animals, and microorganisms on human history and the reciprocal influence of people on the environment. Topics include the European encounter with the Americas, the impact of modern technology, and the historical roots of the current environmental crisis.
Students are introduced to the concepts of evolution by natural selection and …
Students are introduced to the concepts of evolution by natural selection and digital evolution software. They learn about the field of evolutionary computation, which applies the principles of natural selection to solve engineering design problems. They learn the similarities and differences between natural selection and the engineering design process.
Students learn how engineers apply their understanding of DNA to manipulate specific …
Students learn how engineers apply their understanding of DNA to manipulate specific genes to produce desired traits, and how engineers have used this practice to address current problems facing humanity. They learn what genetic engineering means and examples of its applications, as well as moral and ethical problems related to its implementation. Students fill out a flow chart to list the methods to modify genes to create GMOs and example applications of bacteria, plant and animal GMOs.
This text was designed for use in the human osteology laboratory classroom. …
This text was designed for use in the human osteology laboratory classroom. Bones are described to aid in identification of skeletonized remains in either an archaeological or forensic anthropology setting. Basic techniques for siding, aging, sexing, and stature estimation are described. Both images of bone and drawings are included which may be used for study purposes outside of the classroom. The text represents work that has been developed over more than 30 years by its various authors and is meant to present students with the basic analytical tools for the study of human osteology.
Textbook written by Community College and University faculty for non-majors in Nutrition …
Textbook written by Community College and University faculty for non-majors in Nutrition using science and evidence based nutritional science information. This version was accessible in 2012. Material covers basic definitions, and nutrition related to healthy diet and the human body. Separate chapters on carbohydrates, lipids, proteins, nutrients for fluid and electrolyte balance, antioxidants, bone health, metabolism, body weight and the life cycle. Special features to aid in instruction for each chapter include: The “Learning Objectives”, “Big Idea” related to chapter themes, “Key Takeaways” and a “You decide” challenge to think about how topics relate to student’s life. “Discussion Starters”, “Videos” and “Exercises” are provided as well as links to choosemyplate.gov and other sources.
The MIT Biology Department core courses, 7.012, 7.013, and 7.014, all cover …
The MIT Biology Department core courses, 7.012, 7.013, and 7.014, all cover the same core material, which includes the fundamental principles of biochemistry, genetics, molecular biology, and cell biology. 7.013 focuses on the application of the fundamental principles toward an understanding of human biology. Topics include genetics, cell biology, molecular biology, disease (infectious agents, inherited diseases and cancer), developmental biology, neurobiology and evolution.Biological function at the molecular level is particularly emphasized in all courses and covers the structure and regulation of genes, as well as, the structure and synthesis of proteins, how these molecules are integrated into cells, and how these cells are integrated into multicellular systems and organisms. In addition, each version of the subject has its own distinctive material.
This set of lecture materials, laboratory notes, and activities are ancillary materials …
This set of lecture materials, laboratory notes, and activities are ancillary materials created for use with OpenStax Microbiology. The materials were created under a Round Nine Textbook Transformation Grant.
Topics covered include:
The Cell Prokaryotes Eukaryotes Acellular Pathogens Microbial Metabolism Microbial Growth Biochemistry of the Bacterial Genome Microbial Genetics Microbial Growth Antimicrobial Drugs Pathogenicity Epidemiology Immune System
Students learn about the current applications and limitations of 3D bioprinting, as …
Students learn about the current applications and limitations of 3D bioprinting, as well as its amazing future potential. This lesson, and its fun associated activity, provides a unique way to review and explore concepts such as differing cell functions, multicellular organism complexity, and engineering design steps. As introduced through a PowerPoint® presentation, students learn about three different types of bioprinters, with a focus on the extrusion model. Then they learn the basics of tissue engineering and the steps to design printed tissues. This background information prepares students to conduct the associated activity in which they use mock-3D bioprinters composed of a desktop setup that uses bags of icing to “bioprint” replacement skin, bone and muscle for a fictitious trauma patient, Bill. A pre/post-quiz is also provided.
Students design and conduct simple experiments using elodea (aquatic plant sold in …
Students design and conduct simple experiments using elodea (aquatic plant sold in pet stores) and Bromthymol blue to determine whether plants consume or release carbon dioxide in the process of photosynthesis. Students will record their data which will be used to conclude whether carbon dioxide was consumed or released by the elodea. Through class discussion of student data, students will learn that carbon dioxide was consumed during photosynthesis.
Students work in pairs to compare five aspects of an organism that …
Students work in pairs to compare five aspects of an organism that reproduces sexually, asexually, or both sexually and asexually. The activity comes with a chart for the students to fill out and with information sheets on twelve organisms. As a class, students share their comparisons and generate a list of general characteristics for each mode of reproduction and then discuss the advantages and disadvantages of both. Included in the discussion are reproductive mechanisms and genetic variation.
Students will brainstorm ways that they use and waste natural resources. Also, …
Students will brainstorm ways that they use and waste natural resources. Also, they will respond to some facts about population growth and how people use petroleum. Lastly, students will consider the different ways that engineers interact with and use our natural resources.
This lesson will introduce students to environmental issues. Students will recognize environmental …
This lesson will introduce students to environmental issues. Students will recognize environmental opinions and perspective, which will help them define themselves and others as either preservationists or conservationists. Students also learn about the importance of teamwork in engineering.
Students explore the inhalation/exhalation process that occurs in the lungs during respiration. …
Students explore the inhalation/exhalation process that occurs in the lungs during respiration. Using everyday materials, each student team creates a model pair of lungs.
Using ordinary household materials, student “biomedical engineering” teams design prototype models that …
Using ordinary household materials, student “biomedical engineering” teams design prototype models that demonstrate semipermeability under the hypothetical scenario that they are creating a teaching tool for medical students. Working within material constraints, each model consists of two layers of a medium separated by material acting as the membrane. The competing groups must each demonstrate how water (or another substance) passes through the first layer of the medium, through the membrane, and into the second layer of the medium. After a few test/evaluate/redesign cycles, teams present their best prototypes to the rest of the class. Then student teams collaborate as a class to create one optimal design that reflects what they learned from the group design successes and failures. A pre/post-quiz, worksheet and rubric are provided.
This lesson helps students explore the functions of the kidney and its …
This lesson helps students explore the functions of the kidney and its place in the urinary system. Students learn how engineers design instruments to help people when kidneys are not functioning properly or when environmental conditions change, such as kidney function in space.
The Kansas State University Human Nutrition (FNDH 400) Flexbook is a textbook …
The Kansas State University Human Nutrition (FNDH 400) Flexbook is a textbook for students taking Kansas State University FNDH 400 course.FNDH 400 is a 3-hour, intermediate-level, human nutrition course at Kansas State University take primarily by sophomores and juniors because it has prerequisites of a college biology and chemistry courses.
Our planet is precious. Connecting to our world and becoming aware of …
Our planet is precious. Connecting to our world and becoming aware of our surroundings and ways we can keep Earth beautiful can be empowering to students and adults alike! Our goal with this project is to encourage and empower students to reduce waste in our classrooms, our school, our community and beyond!
We have been rearing salmon in our classroom for a long time, …
We have been rearing salmon in our classroom for a long time, and the students love it. The project before this point was very teacher lead and much of the care, and set up was done for the students. We are excited to make a student-led project based unit that will better cover the content and incorporate the standards we are looking to teach.
Through two lessons and five activities, students explore the structure and function …
Through two lessons and five activities, students explore the structure and function of cell membranes. Specific transport functions, including active and passive transport, are presented. In the legacy cycle tradition, students are motivated with a Grand Challenge question. As they study the ingress and egress of particles through membranes, students learn about quantum dots and biotechnology through the concept of intracellular engineering.
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