This video segment adapted from NOVA scienceNOW shows how the common wood …
This video segment adapted from NOVA scienceNOW shows how the common wood frog freezes solid every winter, an adaptation that allows the organism to survive the cold winter.
Weird and wild fungi are everywhere, especially when it’s wet out. Given …
Weird and wild fungi are everywhere, especially when it’s wet out. Given the chance to explore and observe fungi, students will notice them everywhere. Exploring fungi will also lead students to appreciate how fungi function in ecosystems as decomposers and other important roles. Recent discoveries in science have found that huge underground networks of thin, branching tubes of mycelium, the white tubes that are the main growing part of a fungus, provide key links between plants and the rest of the ecosystem.
In this Focused Exploration activity, students begin by observing fungi. Then, they learn that mushrooms are the fruiting bodies of fungi. Students use a simple key to identify types of fungi, record data, then regroup, and discuss patterns of where fungi grow. Next, they learn about how fungi digest what they live on, discuss fungal impacts on ecosystems, and reflect on fungi roles in decomposition.
BI102A is a survey course that introduces the discipline of molecular biology …
BI102A is a survey course that introduces the discipline of molecular biology and genetics, exploring topics including cell division, protein production, inheritance and gene regulation. This book focuses on putting those topics into an appropriate context for students who are not biology majors.
BI101A is a survey course that introduces the discipline of cellular biology, …
BI101A is a survey course that introduces the discipline of cellular biology, exploring topics including the scientific method, parts of a cell, and how cells function. This book focuses on putting those topics into an appropriate context for students who are not biology majors.
The topic of this video module is genetic basis for variation among …
The topic of this video module is genetic basis for variation among humans. The main learning objective is that students will learn the genetic mechanisms that cause variation among humans (parents and children, brothers and sisters) and how to calculate the probability that two individuals will have an identical genetic makeup. This module does not require many prerequisites, only a general knowledge of DNA as the genetic material, as well as a knowledge of meiosis.
Learn how chance events can alter allele frequencies in populations, particularly when …
Learn how chance events can alter allele frequencies in populations, particularly when the populations are small, via genetic drift, the bottleneck effect, and the founder effect. Created by Sal Khan.
This site examines the history of Earth. Learn about the formation of …
This site examines the history of Earth. Learn about the formation of Earth, dating the age of rocks, geologic time, plate tectonics, climate change, ocean circulation, evolution, extinction, ecology, and topics related to paleobiology.
Students are challenged to think as biomedical engineers and brainstorm ways to …
Students are challenged to think as biomedical engineers and brainstorm ways to administer medication to a patient who is unable to swallow. They learn about the advantages and disadvantages of current drug delivery methods—oral, injection, topical, inhalation and suppository—and pharmaceutical design considerations, including toxicity, efficacy, size, solubility/bioavailability and drug release duration. They apply their prior knowledge about human anatomy, the circulatory system, polymers, crystals and stoichiometry to real-world biomedical applications. A Microsoft® PowerPoint® presentation and worksheets are provided. This lesson prepares students for the associated activity in which they create and test large-size drug encapsulation prototypes to provide the desired delayed release and duration timing.
Students operate mock 3D bioprinters in order to print tissue constructs of …
Students operate mock 3D bioprinters in order to print tissue constructs of bone, muscle and skin for a fictitious trauma patient, Bill. The model bioprinters are made from ordinary materials— cardboard, dowels, wood, spools, duct tape, zip ties and glue (constructed by the teacher or the students)—and use squeeze bags of icing to lay down tissue layers. Student groups apply what they learned about biological tissue composition and tissue engineering in the associated lesson to design and fabricate model replacement tissues. They tangibly learn about the technical aspects and challenges of 3D bioprinting technology, as well as great detail about the complex cellular composition of tissues. At activity end, teams present their prototype designs to the class.
Ever wondered why your temperature stays at 98.6 degrees? Learn about homeostasis …
Ever wondered why your temperature stays at 98.6 degrees? Learn about homeostasis and how your body maintains a stable temperature. Created by MIT+K12.
Students set up and run the experiments they designed in the Population …
Students set up and run the experiments they designed in the Population Growth in Yeasts associated lesson, using simple yeast-molasses cultures in test tubes. Population growth is indicated by the amount of respiration occurring in the cultures, which in turn is indicated by the growth of carbon dioxide bubbles trapped within the culture tubes. Using this method, students test for a variety of environmental influences, such as temperature, food supply and pH.
The Breathing Student Edition book is one of ten volumes making up …
The Breathing Student Edition book is one of ten volumes making up the Human Biology curriculum, an interdisciplinary and inquiry-based approach to the study of life science.
The Circulation Student Edition book is one of ten volumes making up …
The Circulation Student Edition book is one of ten volumes making up the Human Biology curriculum, an interdisciplinary and inquiry-based approach to the study of life science.
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