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Geology Online Lab Activities: An Open Educational Resource for Community College Students and Instructors
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The online geology lab for community college students was developed by Dr. Rondi Davies, a faculty member at Queensborough Community College, City University New York, during two years of forced online synchronous learning brought on by the COVID-19 pandemic. This open educational resource collects many of Dr. Davies’ favorite open-access materials and supplements them with her own work within a single, cohesive laboratory manual intended for two-year, non-major college students from the New York area.

Subject:
Geology
Physical Science
Material Type:
Textbook
Provider:
CUNY Academic Works
Provider Set:
Queensborough Community College
Author:
Rondi Davies
Date Added:
05/23/2022
Geoscience: the Earth and its Resources
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CC BY-NC-SA
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Are you fascinated by Geosciences and willing to take the challenge of predicting the nature and behavior of the Earth subsurface? This is your course!

In a voyage through the Earth, Geoscience: the Earth and its Resources will explore the Earth interior and the processes forming mountains and sedimentary basins. You will understand how the sediments are formed, transported, deposited and deformed.

You will develop knowledge on the behavior of petroleum and water resources.

The course has an innovative approach focusing on key fundamental processes, exploring their nature and quantitative interactions. It will be shown how this acquired knowledge is used to predict the nature and behavior of the Earth subsurface.

This is your ideal first step as a future Geoscientists or professional to upgrade your knowledge in the domain of Earth Sciences.

Subject:
Geology
Physical Science
Material Type:
Full Course
Provider:
Delft University of Technology
Provider Set:
TU Delft OpenCourseWare
Author:
Prof. dr. Giovanni Bertotti
Date Added:
08/01/2018
Glucose Dilution Problem
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In this activity, students use the virtual lab to create a 0.025M glucose solution from a standard 1M glucose solution. First, they calculate the correct volumes of 1M glucose solution and water to mix together to create the final 0.025M solution. Next, they prepare the solution using the appropriate glassware. Students can check to see if their procedure was correct using the concentration viewer in the solution info panel.

Subject:
Chemistry
Physical Science
Material Type:
Activity/Lab
Provider:
Carnegie Mellon University
Provider Set:
The ChemCollective
Date Added:
02/05/2021
High School Physics
Unrestricted Use
CC BY
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This Physics resource was developed under the guidance and support of experienced high school teachers and subject matter experts. It is presented here in multiple formats: PDF, online, and low-cost print. Beginning with an introduction to physics and scientific processes and followed by chapters focused on motion, mechanics, thermodynamics, waves, and light, this book incorporates a variety of tools to engage and inspire students. Hands-on labs, worked examples, and highlights of how physics is applicable everywhere in the natural world are embedded throughout the book, and each chapter incorporates a variety of assessment types such as practice problems, performance tasks, and traditional multiple choice items. Additional instructor resources are included as well, including direct instruction presentations and a solutions manual.

Subject:
Physical Science
Physics
Material Type:
Textbook
Provider:
Rice University
Provider Set:
OpenStax College
Author:
Paul Peter Urone
Roger Hinrichs
Date Added:
02/18/2021
Historical Geology
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Geology can roughly be divided into physical geology, which studies the materials of the Earth and the processes operating in it, and historical geology, which aims at a reconstruction of the history of the Earth. Historical geology requires some knowledge of physical geology for its elucidation. (Imagine, by way of analogy, forensic scientists diagnosing cause of death as a gunshot wound, which is a historical question. It would obviously be necessary for them to know something about the behavior of guns, which would be a physical question.) However, the aim of historical geology is to understand the past, and knowledge of physical geology is merely an adjunct to this aim.

Subject:
Geology
Physical Science
Material Type:
Textbook
Provider:
Wikibooks
Author:
Tim Hardcastle
Date Added:
07/27/2016
How to be a Successful Organic Chemist
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How to be a successful organic chemist is meant as an introductory text for undergraduates taking organic chemistry teaching labs. The text is a clear and practical introduction to safety, chemical handling, organic chemistry techniques, and lab reports.

Subject:
Chemistry
Physical Science
Material Type:
Textbook
Provider:
LibreTexts
Author:
Alexander Sandtorv
Date Added:
02/25/2022
Hydrological Measurements
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Relation of purpose of data to data requirements. Relation of data to costs.
Accuracy requirements of measurements and error propagation:
Related to a problem the required accuracy of measurements and the consequences for accuracy in the final result are discussed. Different types of errors are handled. Propagation of errors; for dependent and independent measurements, from mathematical relations and regression is demonstrated. Recapitulated is the theory of regression and correlation.
Interpretation of measurements, data completion: By standard statistical methods screening of measured data is performed; double mass analysis, residual mass, simple rainfall-runoff modelling. Detection of trends; split record tests, Spearman rank tests. Methods to fill data gaps and do filtering on data series for noise reduction.
Methods of hydrological measurements and measuring equipment: To determine quantitatively the most important elements in the hydrological cycle an overview is presented of most common hydrological measurements, measuring equipment and indirect determination methods i.e. for precipitation, evaporation, transpiration, river discharge and groundwater tables. Use, purpose and measurement techniques for tracers in hydrology is discussed.
Advantages and disadvantages and specific condition/application of methods are discussed. Equipment is demonstrated and discussed.
Areal distributed observation: Areal interpolation techniques of point observations: inverse distance, Thiessen, contouring, Kriging. Comparison of interpolation techniques and estimation of errors. Correlation analysis of areal distributed observation of rainfall
Design of measuring networks: Based on correlation characteristics from point measurements (e.g. rainfall stations) and accuracy requirements the design of a network of stations is demonstrated.

Subject:
Hydrology
Physical Science
Material Type:
Homework/Assignment
Lecture
Lecture Notes
Reading
Provider:
Delft University of Technology
Provider Set:
TU Delft OpenCourseWare
Author:
Dr.ir. A.M.J. Coenders
Date Added:
02/17/2016
Hydrologie
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-De hydrologie van Nederland in historisch perspectief en de rol van de mens daarin (de vroege geschiedenis; waterbeheersing van af het begin van de 17e eeuw; grote werken);-Hydrologie van Nederland (geologie; neerslag en verdamping; oppervlaktewater; gro

Subject:
Hydrology
Physical Science
Material Type:
Full Course
Provider:
Delft University of Technology
Provider Set:
TU Delft OpenCourseWare
Author:
H.H.G. Savenije
Date Added:
05/22/2013
Hydrology of Catchments, Rivers, Deltas
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The course deals with the principles of hydrology of catchment areas, rivers and deltas. The students will learn:

1). to understand the relations between hydrological processes in catchment areas
2?. to understand and to calculate the propagation of flood waves
3). to understand hydrological processes in deltas
4). to draft frequency analysis of extremes under different climatological conditions.

Subject:
Hydrology
Physical Science
Material Type:
Full Course
Provider:
Delft University of Technology
Provider Set:
TU Delft OpenCourseWare
Author:
H.H.G. Savenije
Date Added:
02/20/2016
Hydromechanica 1
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In dit college wordt een introductie gegeven van een groot aantal facetten van de scheepshydromechanica en hun onderlinge samenhang zoals die later in de studie meer als geisoleerde onderwerpen aan bod komen. Behandeld worden: de hydrostatica, de geometrie beschrijving van het schip, inleiding lijnenplan, het begrip stabiliteit, de stabiliteit van drijvende lichamen, eenvoudige stabiliteit berekening bij kleine helling hoeken, de weerstand van lichamen onder water en aan het oppervlak, eenvoudige weerstand benaderings methoden voor schepen, de model wetten in de hydromechanica, de extrapolatie methode van Froude, de lift van een vleugel, de vleugel karakteristieken, de toepassing hiervan bij voortstuwing en bij scheepsschroeven, de schroef karakteristieken en een eenvoudige schroef berekening, en tenslotte de fysica van het zeilen en zeilvoortstuwing. Leerdoelen De student kan: 1. de basis van systeem analyse beschrijven (buitenwereld, interfaces, beperkingen, objecten, relaties enz.) 2. maritieme systemen zoals schip/motor/schroef beschrijven en modelleren met behulp van beperkte systeem analyse methodologie; eenvoudige maritieme systemen modelleren door onderverdeling in subsystemen en componenten 3. evenwicht condities van maritieme systemen bepalen en kwalitatief analyseren 4. de definities en belangrijkste karakteristieken van weerstand, voortstuwing en manoeuvreren (snelheid, weerstand, vermogen, RPM, draaicapaciteit) begrijpen en toepassen 5. de relaties tussen algemeen vloeistof dynamica en scheepshydromechanica (bijv. lift/aerodynamica/zeilen; visceuze stroming/Reynolds getal/volgstroomvelden/voortstuwingsrendement; laminair & visceuze stroming/weerstand; niet visceuze stroming/golf patronen/weerstand) beschrijven 6. de achtergrond van de belangrijkste schaal regels (Newton, Froude, Reynolds) d.m.v dimensie analyse uitleggen 7. schaalregels voor schaalmodel experimenten in een sleeptank toepassen en potentiĚÇle complicaties identificeren

Subject:
Hydrology
Physical Science
Material Type:
Full Course
Lecture
Lecture Notes
Reading
Provider:
Delft University of Technology
Provider Set:
TU Delft OpenCourseWare
Author:
P. de Jong
Date Added:
02/24/2016
Hydromechanica 3
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Fenomenologische beschrijving van de stroming om een schip classificatie van weerstandscomponenten en parametrische methoden voor de berekening van de scheepsweerstand. Daarnaast wordt uitgelegd hoe de scheepsweerstand experimenteel bepaald kan worden.

Voor scheepsschroeven wordt aangegeven hoe de complete geometrie beschreven kan worden, hoe de stuwkracht en koppel uit een parametrische beschrijving kan worden berekend m.b.v. een systematische schroevenserie en via een ideaal stromings model (actuator schijf). Een introductie in cavitatie (vorming van waterdamp gebieden) is onderdeel van de cursus.

Subject:
Hydrology
Physical Science
Material Type:
Assessment
Lecture
Lesson Plan
Reading
Provider:
Delft University of Technology
Provider Set:
TU Delft OpenCourseWare
Author:
Prof.dr.ir. T.J.C. van Terwisga
Date Added:
10/16/2014
Identifying an Unknown Liquid from its Density
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In this activity students use the virtual lab to design an experiment to determine the identity of mislabeled bottles using the densities of the solutions inside.

Subject:
Chemistry
Physical Science
Material Type:
Activity/Lab
Provider:
Carnegie Mellon University
Provider Set:
The ChemCollective
Date Added:
02/05/2021
Identifying the Unknown Metal (Metals Density Problem)
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In this activity, students use the virtual lab to identify an unknown metal by measuring its density and comparing their measurements to the densities of known metals.

Subject:
Chemistry
Physical Science
Material Type:
Activity/Lab
Provider:
Carnegie Mellon University
Provider Set:
The ChemCollective
Date Added:
02/05/2021
Inleiding Watermanagement
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Hoofdpunten: De cursus geeft een kennismaking met infrastructuur voor Watermanagement. Voor Waterbeheer ligt de focus op ontwatering, afwatering, wateraanvoer en het ontwerpen van eenvoudige aan- en afvoersystemen. Voor Civiele gezondheidstechniek ligt de focus op Gezondheidstechniek en volksgezondheid, drinkwatervoorziening en Integraal waterbeheer. Leerdoelen: Begrip van basisopzet infrastructuur Watermanagement. Eenvoudige systemen kunnen ontwerpen.

Subject:
Hydrology
Physical Science
Material Type:
Activity/Lab
Lecture
Lecture Notes
Reading
Provider:
Delft University of Technology
Provider Set:
TU Delft OpenCourseWare
Author:
J. C. van Dijk
N.C. van de Giesen
Date Added:
07/19/2011
Inorganic Chemistry
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Inorganic chemistry is concerned with the properties and reactivity of all chemical elements. Advanced interests focus on understanding the role of metals in biology and the environment, the design and properties of materials for energy and information technology, fundamental studies on the reactivity of main group and transition elements, and nanotechnology. Synthetic efforts are directed at hydrogen storage materials and thermoelectrics, catalysts for solar hydrogen generation, fullerenes and metal porphyrins, metal clusters and compounds with element-element bonds, as well as nanowires and nanoparticles.

Subject:
Chemistry
Physical Science
Material Type:
Textbook
Provider:
LibreTexts
Date Added:
05/12/2016
Integrated Water Management
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CC BY-NC-SA
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The lectures introduce a number of topics that are important for IWRM and the modeling exercise. The lectures introduce water management issues in the Netherlands, Rhine Basin, and Volta Basin. The role-play is meant to experience some of the social processes that, together with technical knowledge, determine water management.

Subject:
Hydrology
Physical Science
Material Type:
Lecture Notes
Reading
Simulation
Provider:
Delft University of Technology
Provider Set:
TU Delft OpenCourseWare
Author:
Prof.dr.ir. N.C. van de Giesen
Date Added:
02/17/2016
Intermediate Fluid Mechanics
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Short Description:
This book is meant to be a second course in fluid mechanics that stresses applications dealing with external potential flows and intermediate viscous flows. Students are expected to have some background in some of the fundamental concepts of the definition of a fluid, hydrostatics, use of control volume conservation principles, initial exposure to the Navier-Stokes equations, and some elements of flow kinematics, such as streamlines and vorticity. It is not meant to be an in-depth study of potential flow or viscous flow, but is meant to expose students to additional analysis techniques for both of these categories of flows. We will see applications to aerodynamics, with analysis methods able to determine forces on arbitrary bodies. We will also examine some of the exact solutions of the Navier-Stokes equations based on classical fluid mechanics. Finally we will explore the complexities of turbulent flows and how for boundary layer flows one can predict drag forces. This compilation is drafted from notes used in the course Intermediate Fluid Mechanics, offered to seniors and first year graduate students who have a background in mechanical engineering or a closely related area. Data Dashboard

Word Count: 105137

(Note: This resource's metadata has been created automatically by reformatting and/or combining the information that the author initially provided as part of a bulk import process.)

Subject:
Physical Science
Physics
Material Type:
Textbook
Provider:
Oregon State University
Author:
James Liburdy
Date Added:
09/16/2021
Introduction to Climate Science
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CC BY-NC
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Short Description:
This book describes how Earth's climate is changing, how it has been changing in the recent geological past and how it may change in the future. It covers the physical sciences that build the foundations of our current understanding of global climate change such as radiation, Earth's energy balance, the greenhouse effect and the carbon cycle. Both natural and human causes for climate change are discussed. Impacts of climate change on natural and human systems are summarized. Ethical and economical aspects of human-caused climate change and solutions are presented. Data dashboard

Word Count: 52328

(Note: This resource's metadata has been created automatically by reformatting and/or combining the information that the author initially provided as part of a bulk import process.)

Subject:
Applied Science
Atmospheric Science
Career and Technical Education
Environmental Science
Environmental Studies
Oceanography
Physical Science
Material Type:
Textbook
Provider:
Oregon State University
Author:
Andreas Schmittner
Date Added:
05/28/2018
Introduction to Earth Science
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Introduction to Earth Science is a 530+ page open textbook designed to provide a comprehensive introduction to Earth Science that can be freely accessed online, read offline, printed, or purchased as a print-on-demand book. It is intended for a typical 1000-level university introductory course in the Geosciences, although its contents could be applied to many other related courses.

This text includes various important features designed to enhance the student learning experience in introductory Earth Science courses. These include a multitude of high-quality figures and images within each chapter that help to clarify key concepts and are optimized for viewing online. Self-test assessment questions are embedded in each online chapter that help students focus their learning. QR codes are provided for each assessment to allow students using print or PDF versions to easily access the quiz from an internet-capable device of their choice.

Adapted from openly-licensed works in geoscience, the sequence of the book differs from mainstream commercial texts in that it has been arranged to present elementary or foundational knowledge regarding rocks and minerals prior to discussion of more complex topics in Earth Science. Unlike prominent commercial texts for Earth Science, this book dedicates an individual chapter to each of the three major rock types, the processes of mass wasting, geological time, Earth history, and the origin of the universe and our solar system. Book content has been further customized to match the Pathways General Education Curriculum at Virginia Tech with a focus on Student Learning Outcomes (SLOs) for Pathways Concept 4, Reasoning in the Natural Sciences.

Are you a professor reviewing or adopting this book for a course?
Instructors adopting or reviewing this text are encouraged to record their use on this form: https://bit.ly/interest_intro_earth_science. This helps the book's sponsors to understand this open textbook's impact.

How to Access the Book
This text is available in multiple formats including PDF, a low-resolution PDF which is faster to download, and ePub [coming mid 2023]. These are available at: https://doi.org/10.21061/introearthscience. The book is also available in HTML/Pressbooks at https://pressbooks.lib.vt.edu/introearthscience. Softcover print versions with color interior are available at the manufacturer’s lowest price at https://www.amazon.com/dp/1957213361. The main landing page for this book is https://doi.org/10.21061/introearthscience.

PDF: ISBN 978-1-957213-34-7
HTML/Pressbooks: ISBN 978-1-957213-33-0
https://pressbooks.lib.vt.edu/introearthscience
Print: ISBN 978-1-957213-36-1 https://www.amazon.com/dp/1957213361
ePub: ISBN 978-1-957213-35-4 [expected mid 2023]

Table of Contents
1. Understanding Science
2. Plate Tectonics
3. Minerals
4. Igneous Processes and Volcanoes
5. Weathering, Erosion, and Sedimentary Rocks
6. Metamorphic Rocks
7. Geologic Time
8. Earth History
9. Crustal Deformation and Earthquakes
10. Mass Wasting
11. Water
12. Coastlines
13. Deserts
14. Glaciers
15. Global Climate Change
16. Energy and Mineral Resources
17. Origin of the Universe and Our Solar System

Find, Adapt, and Share Resources
If you wish to share resources you build from this book or find those shared by other adopters of this book, please join the Instructor Resource Portal in OER Commons at https://www.oercommons.org/groups/introduction-to-earth-science-instructor-group/12785

Attribution
This work includes content from multiple sources reproduced under the terms of Creative Commons licenses, Public Domain, and Fair Use. Specifically: Chapters 1-16 are adapted from An Introduction to Geology https://slcc.pressbooks.pub/introgeology (CC BY NC SA) by Chris Johnson, Matthew D. Affolter, Paul Inkenbrandt, and Cam Mosher. Chapter 17 is adapted from Section 22.1 of Chapter 22 “The Origin of Earth and the Solar System” by Karla Panchuk in Physical Geology, 2nd edition (CC BY) by Steven Earle https://opentextbc.ca/physicalgeology2ed/part/chapter-22-the-origin-of-earth-and-the-solar-system, with Sections 7.1, 7.2, 7.3, and 7.4 of Chapter 7 “Other Worlds: An Introduction to the Solar System” https://openstax.org/books/astronomy-2e/pages/7-1-overview-of-our-planetary-system from OpenStax Astronomy, 2nd edition https://openstax.org/details/books/astronomy-2e (CC BY). And, figures are from a variety of sources; references at the end of each chapter describe the terms of reuse for each figure. Version notes located at the end of the book describe author changes made to these materials by chapter.

About the Author
Laura Neser, Ph.D. is an Instructor in the Department of Geosciences at Virginia Tech. Dr. Neser earned her B.S. in Geosciences at Virginia Tech in the spring of 2008 and completed her Ph.D. in Geological Sciences at the University of North Carolina at Chapel Hill (UNC) in 2014. Her doctoral research focused on the structural geology, sedimentology, and stratigraphy of formations that were deposited along the flanks of the Beartooth Mountains as they rose during late Paleocene-Eocene time. Dr. Neser has worked as an athletic tutor and online instructor at The University of North Carolina (Chapel Hill, NC), in temporary positions as an Adjunct Instructor at Chowan University (Murfreesboro, NC) and Full-Time Lecturer at Indiana State University (Terre Haute, IN), and as a Professor at Seminole State College (Sanford, FL) before starting as an Instructor at Virginia Tech in the fall of 2021.

Although she is currently focused on teaching online sections of Introduction to Earth Science, Earth Resources, Society and the Environment, and Climate History, her teaching background is significantly broader and includes Environmental ‬Science, Astronomy, Environmental ‬Ethics, Earth History, Structural Geology, and Field Geology‬.

Suggested Citation
Neser, Laura (2023). Introduction to Earth Science. Blacksburg: Virginia Tech Department of Geosciences. https://doi.org/10.21061/introearthscience. Licensed with CC BY-NC-SA 4.0. https://creativecommons.org/licenses/by-nc-sa/4.0.

Report Errors: https://bit.ly/report_error_intro_earth_science
View Errata: https://bit.ly/errata_intro_earth_science

Funding and Project Support
This publication was made possible in part through funding and publishing support provided by the Open Education Initiative of the University Libraries at Virginia Tech.

Accessibility Statement
Virginia Tech Publishing is committed to making its publications accessible in accordance with the Americans with Disabilities Act of 1990. The Pressbooks (HTML) and ePub versions of this text are tagged structurally and include alternative text, which allows for machine readability.

Disclaimer
This work may contain components (e.g., illustrations, or quotations) not covered by the license. Every effort has been made to clearly identify these components but ultimately it is your responsibility to independently evaluate the copyright status of any work or component part of a work you use, in light of your intended use. Please check the references at the end of each chapter before redistributing.

Subject:
Geology
Physical Science
Material Type:
Textbook
Provider:
Virginia Tech
Provider Set:
VTech Works
Author:
Laura Neser
Date Added:
01/09/2023