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IRIS Earthquake Science

 

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A. Animations—Earth Science   117 Uploads

A. Animations—Earth Science

117 Uploads

B. Webinars and other Long Earth Science   157 Uploads

B. Webinars and other Long Earth Science

157 Uploads

E. Pacific Northwest Earth Science Animations   29 Uploads

E. Pacific Northwest Earth Science Animations

29 Uploads

 

Search IRIS Earthquake Science

E. Pacific Northwest Earth Science Animations

29 Uploads

IRIS Earthquake Science

B. Webinars and other Long Earth Science

157 Uploads

IRIS Earthquake Science

E. Pacific Northwest Earth Science Animations

29 Uploads

IRIS Earthquake Science

Tectonic Earthquakes of the Pacific Northwest
IRIS Earthquake Science

Ghost Forests of the Pacific N.W.—Evidence for Cascadia's Past Earthquakes
IRIS Earthquake Science

UNAVCO animation: What can GPS tell us about future earthquakes in Cascadia? animation
IRIS Earthquake Science

Convergent Margin—Subduction to Tsunami (Educational)
IRIS Earthquake Science

GPS_3grid_subduction.mov
IRIS Earthquake Science

Borde convergente. Animación (en Español)
IRIS Earthquake Science

Volcanic evolution of the Pacific Northwest: 55 million year history
IRIS Earthquake Science

Volcano Monitoring with Tiltmeters and GPS (Educational)
IRIS Earthquake Science

Volcano Monitoring — Seismic (Educational)
IRIS Earthquake Science

GPS_graphFor 3grid_WithSeismic.mov
IRIS Earthquake Science

Japan and Pacific Northwest Earthquakes (Part 1 of 4)
IRIS Earthquake Science

Japan and Pacific Northwest Earthquakes (Part 2 of 4)
IRIS Earthquake Science

Japan and Pacific Northwest Earthquakes (Part 3 of 4)
IRIS Earthquake Science

Japan and Pacific Northwest Earthquakes (Part 4 of 4)
IRIS Earthquake Science

Predicting Earthquakes and Volcanoes: What Can and Can't Now Be Done (Part 1 of 7)
IRIS Earthquake Science

Predicting Earthquakes and Volcanoes: What Can and Can't Now Be Done (Part 2 of 7)
IRIS Earthquake Science

Predicting Earthquakes and Volcanoes: What Can and Can't Now Be Done (Part 3 of 7)
IRIS Earthquake Science

Predicting Earthquakes and Volcanoes: What Can and Can't Now Be Done (Part 4 of 7)
IRIS Earthquake Science

Predicting Earthquakes and Volcanoes: What Can and Can't Now Be Done (Part 5 of 7)
IRIS Earthquake Science

Predicting Earthquakes and Volcanoes: What Can and Can't Now Be Done (Part 6 of 7)
IRIS Earthquake Science

Predicting Earthquakes and Volcanoes: What Can and Can't Now Be Done (Part 7 of 7)
IRIS Earthquake Science

The Orphan Tsunami of 1700 - (Part 1 of 7)
IRIS Earthquake Science

The Orphan Tsunami of 1700 - (Part 2 of 7)
IRIS Earthquake Science

The Orphan Tsunami of 1700 - (Part 3 of 7)
IRIS Earthquake Science

The Orphan Tsunami of 1700 - (Part 4 of 7)
IRIS Earthquake Science

The Orphan Tsunami of 1700 - (Part 5 of 7)
IRIS Earthquake Science

The Orphan Tsunami of 1700 - (Part 6 of 7)
IRIS Earthquake Science

The Orphan Tsunami of 1700 - (Part 7 of 7)
IRIS Earthquake Science

Several flavors of seismogenic magma movement under Kilauea Volcano
IRIS Earthquake Science

Volcanoes: Using Seismology to Find Where is the Magma and How Does it Get to the Surface?
IRIS Earthquake Science

Through the Ocean to the Mantle: Under the Seas with a Fleet of Floating Seismic Robots
IRIS Earthquake Science

Evolving Uses for Dense Geophone Arrays in Solid Earth and Environmental Seismology
IRIS Earthquake Science

Reflections of a Peripatetic Seismologist: Making Broader Impact Deeper
IRIS Earthquake Science

Glacial Earthquakes and Cryoseismology as a Tool for Investigating Greenland Outlet
IRIS Earthquake Science

Management Review - Petroleum Exploration: A Field Example
IRIS Earthquake Science

Estimating Ultimate Recovery & Maturing a Prospect - Petroleum Exploration: A Field Example
IRIS Earthquake Science

Reservoir Rocks - Petroleum Exploration: A Field Example
IRIS Earthquake Science

Source Rocks & HC Generation - Petroleum Exploration: A Field Example
IRIS Earthquake Science

Introduction & The Exploration Task - Petroleum Exploration: A Field Example
IRIS Earthquake Science

Lesson 33 - Production Geoscience
IRIS Earthquake Science

Lesson 34 - Technical Writing
IRIS Earthquake Science

Lesson 31 - Development Geology and Geophysics
IRIS Earthquake Science

Lesson 32: Detailed Stratigraphy
IRIS Earthquake Science

Lesson 30: Estimating Ultimate Recovery
IRIS Earthquake Science

Lesson 29: Seismic Inversion
IRIS Earthquake Science

Lesson 28: Time Depth Conversion
IRIS Earthquake Science

Lesson 27: Amplitude vs Offset
IRIS Earthquake Science

Lesson 26: Direct HC Indicators
IRIS Earthquake Science

Accurate Seismic Event Location: A Question of Context
IRIS Earthquake Science

Lesson 24 - Seismic Attributes
IRIS Earthquake Science

Lesson 23: Seismic Facies
IRIS Earthquake Science

Lesson 22 - Thickness Maps
IRIS Earthquake Science

Lesson 21 - Seismic Sequences
IRIS Earthquake Science

Lesson 20 - Stratigraphic Hierarchy
IRIS Earthquake Science

Lesson 18 - 3D Seismic Data
IRIS Earthquake Science

Lesson 19 Seismic Interpretation
IRIS Earthquake Science

Flavors of Pacific Northwest Earthquakes
IRIS Earthquake Science

Lesson 17 - Seismic Processing
IRIS Earthquake Science

Lesson 16 - Seismic Acquisition
IRIS Earthquake Science

Lesson 15 - Well Seismic Tie
IRIS Earthquake Science

Lesson 14 - Prospect Risking
IRIS Earthquake Science

Lesson 13 - Prospect Mapping
IRIS Earthquake Science

Lesson 12 - New Petroleum Ventures
IRIS Earthquake Science

Lesson 11 - Basics of Seismic Interpretation
IRIS Earthquake Science

A TALE OF 3 PACIFIC NW TEMBLORS: One Big, One Deep, and One Direct Hit
IRIS Earthquake Science

Lesson 10 - Hydrocarbon Seal and Migration
IRIS Earthquake Science

Down to Earth with an Electric Hazard from Space
IRIS Earthquake Science

Lesson 9 - Structural Analysis and Trap Formation
IRIS Earthquake Science

Lesson 8 - Essential Play Elements Reservoir Rocks
IRIS Earthquake Science

Lesson 7: Source Rocks for Hydrocarbon Generation
IRIS Earthquake Science

Lesson 6: Seismic Reflection
IRIS Earthquake Science

Early Results from IRIS Wavefields Experiment in Oklahoma
IRIS Earthquake Science

Lesson 5 - The Seismic Method
IRIS Earthquake Science

Lesson 2 - Introduction to Play Elements
IRIS Earthquake Science

Lesson 4 - Introduction to Well Logs
IRIS Earthquake Science

Lesson 3 - Tools of the Petroleum Industry
IRIS Earthquake Science

Lesson 1 - Focus of the Petroleum Industry
IRIS Earthquake Science

Social Media for Scientists and Science Programs
IRIS Earthquake Science

Understanding and Promoting Spatial Learning Processes in the Geosciences
IRIS Earthquake Science

Geoscience education research at the post secondary and professional level
IRIS Earthquake Science

Results from the Salton Seismic Imaging Project SSIP
IRIS Earthquake Science

Facilitating Data Discovery and Access Across FDSN Datacenters with the IRIS Federator
IRIS Earthquake Science

IDEA(L) Model Message Design and Distribution Strategies
IRIS Earthquake Science

Tips & Tricks for Applying to Graduate School in the Geosciences—J. Caplan-Auerbach
IRIS Earthquake Science

FuncLab 1.7.8: one postdoc’s revision to a community Matlab tool for handling receiver functions
IRIS Earthquake Science

Subduction Zone Observatory Pre-workshop Webinar - Latin America
IRIS Earthquake Science

Subduction Zone Observatory Pre-workshop Webinar - New Zealand and Japan
IRIS Earthquake Science

Subduction Zone Observatory Pre-workshop Webinar - Indonesia and Southeast Asia
IRIS Earthquake Science

Subduction Zone Observatory Pre-workshop Webinar - Cascadia and Alaska
IRIS Earthquake Science

PUBLIC LECTURE: From Plate Tectonics to Deep Earth Dynamics
IRIS Earthquake Science

PUBLIC LECTURE: Yes, Humans Cause Earthquakes
IRIS Earthquake Science

Hydrocarbon Play Elements from a Geophysical Point of View
IRIS Earthquake Science

Ground Motion and Hazard from Induced Seismicity
IRIS Earthquake Science

Building Earthquake Early Warning on the West Coast
IRIS Earthquake Science

WEBINAR: Yes, Humans Really Are Causing Earthquakes
IRIS Earthquake Science

Procesos de Ruptura al Borde de Zonas de Acoplamiento Sísmico
IRIS Earthquake Science

PUBLIC LECTURE: Fire & Ice: Volcanoes, Earth Structure, and the Evolution of the Antarctic Ice Sheet
IRIS Earthquake Science

Building a community project: the experience of the Eastern North America Margin ENAM Community Seis
IRIS Earthquake Science

Aftershock Imaging with Dense Arrays (AIDA) - Lessons from the 2011 Mw 5.8 Virginia Earthquake
IRIS Earthquake Science

Tomografía de velocidad de grupo de ondas de Rayleigh para el sur y centro de México
IRIS Earthquake Science

Thinking Differently about Geoscience Careers
IRIS Earthquake Science

PUBLIC TALK: Global Surge of Great Earthquakes—What We Are Learning From Them
IRIS Earthquake Science

WEBINAR: A Global Surge of Great Earthquakes and What We are Learning From Them
IRIS Earthquake Science

ObsPy: A Python Toolbox for Seismology
IRIS Earthquake Science

Your PASSCAL Instrument Center
IRIS Earthquake Science

Antarctic Seismology: Revealing the Secrets of an Ice-Covered Continent
IRIS Earthquake Science

A Taste of Python and its Capabilities
IRIS Earthquake Science

Career Opportunities in the Energy Industry
IRIS Earthquake Science

Multi Parameter Waveform Inversion of Low Frequency, Wide-Aperture Seismic Data - 2014 IRIS Workshop
IRIS Earthquake Science

New Developments in Ambient Noise Imaging - 2014 IRIS Workshop
IRIS Earthquake Science

Antelope Strikes Back - Using the Perl and Matlab Interfaces to Your Advantage
IRIS Earthquake Science

MATLAB for Analyzing and Visualizing Geospatial Data
IRIS Earthquake Science

SEISAN Earthquake Analysis Software
IRIS Earthquake Science

The R/V Langseth: Facilities
IRIS Earthquake Science

Imaging Faulting and Hydration in the Alaska Subduction Zone with the R/V Langseth
IRIS Earthquake Science

The Nature of Cognition as a Driver for (re)Designing Lectures to Foster Learning
IRIS Earthquake Science

Wave Propagation Across the US Exploiting the Quality of TA Data - 2014 IRIS Workshop
IRIS Earthquake Science

Thermo-Chemical Internal Dynamics and Volatile Distribution - 2014 IRIS Workshop
IRIS Earthquake Science

The Ubiquity of Seismology Rick Aster - 2014 IRIS Workshop
IRIS Earthquake Science

Plenary Session - Science Grand Challenges Introduction - 2014 IRIS Workshop
IRIS Earthquake Science

Plenary Session - Reports from Breakout Groups - 2014 IRIS Workshop
IRIS Earthquake Science

Planning Forum - 2014 IRIS Workshop
IRIS Earthquake Science

Lessons Learned from 24 Years of Collecting and Processing Broadband Array Data - 2014 IRIS Workshop
IRIS Earthquake Science

Invited Talk - Jim Whitcomb, NSF - 2014 IRIS Workshop
IRIS Earthquake Science

Fluids and Melt in the Crust and Mantle from 3D Inversion of EarthScope MT Data - 2014 IRIS Workshop
IRIS Earthquake Science

Imaging a Crustal Magma Body at Newberry Volcano - 2014 IRIS Workshop
IRIS Earthquake Science

Faulting and Deformation Processes - 2014 IRIS Workshop
IRIS Earthquake Science

Exploring Pragmatic to Esoteric Applications of PBO High-Rate Geodetic Data - 2014 IRIS Workshop
IRIS Earthquake Science

Discussion Period with Committee Panel - 2014 IRIS Workshop
IRIS Earthquake Science

Detection of Gravity Waves and Infrasound Signals - 2014 IRIS Workshop
IRIS Earthquake Science

Change and Interactions Among Climate, Hydrology, Surface Processes, Tectonics - 2014 IRIS Workshop
IRIS Earthquake Science

Crustal Structure and Tectonics of Northeast Tibet from INDEPTH IV Wide Angle Refraction and Receive
IRIS Earthquake Science

Anatomy of a Megathrust Earthquake Rupture - The 2010 M8.8 Chile Quake
IRIS Earthquake Science

Broader Impacts in the Earth Sciences Division of the National Science Foundation
IRIS Earthquake Science

A Snapshot of E. Mediterranean Lithosphere and Upper Mantle - Clues for the Demise of Tethys Ocean
IRIS Earthquake Science

New Constraints on the Nature of the Gutenberg Discontinuity from Anisotropic Seismic Tomography
IRIS Earthquake Science

Imaging the African Superplume Using AfricaArray Data - Is the Superplume a Whole Mantle Structure?
IRIS Earthquake Science

The Western US Lithosphere Blues
IRIS Earthquake Science

Induced/Triggered Earthquakes: Examples from Texas
IRIS Earthquake Science

Slow Earthquakes and Tremor: Imaging a Wide Spectrum of Fault Slip with Mini Seismic Arrays
IRIS Earthquake Science

Seismology and Imaging Beneath Alaska: EarthScope's Final Frontier
IRIS Earthquake Science

Methods of Seismic Monitoring for Underground Nuclear Explosions: Past, Present, and (Maybe) Future
IRIS Earthquake Science

IRIS Data Products
IRIS Earthquake Science

Modeling the Crust and Upper Mantle by Joint Inversion of Receiver Functions and Surface Waves
IRIS Earthquake Science

Antelope and SAC: An Overview and Short Tutorial from a User's Perspective
IRIS Earthquake Science

The Tortoise and the Hare: Slow vs Fast Earthquakes
IRIS Earthquake Science

Incorporating IRIS-held Data into Research Workflows
IRIS Earthquake Science

Getting Ready for Class: Preparing to Teach to Maximize Learning
IRIS Earthquake Science

Earthquake Science at the Border Between Real Time Response and Long-Term Research
IRIS Earthquake Science

Infrasonics and the USArray
IRIS Earthquake Science

Volcanoes in our Backyard: Hazards, Risks, and What We Can Do
IRIS Earthquake Science

Body - Wave Seismic Interferometry - Data Mining from Distant Seismicity
IRIS Earthquake Science

Under the Sea - Ocean Bottom Seismology for Landlubbers
IRIS Earthquake Science

Seismic Tomography and Interferometry: From Shallow to Deep
IRIS Earthquake Science

Five Things You Can Do Right Now to Make Your Presentations a Little Bit Better
IRIS Earthquake Science

Communicating Science with the Media and General Public
IRIS Earthquake Science

3D Inversion of EarthScope MT Data
IRIS Earthquake Science

The Secret Lives of 'Quiescent' Volcanoes - Clues from Volcano Seismology
IRIS Earthquake Science

Understanding the NSF System - Some Tips from a Program Officer's Perspective
IRIS Earthquake Science

Predicting Earthquakes and Volcanoes: What Can and Can't Now Be Done (Part 7 of 7)
IRIS Earthquake Science

The Orphan Tsunami of 1700 - (Part 7 of 7)
IRIS Earthquake Science

Predicting Earthquakes and Volcanoes: What Can and Can't Now Be Done (Part 6 of 7)
IRIS Earthquake Science

Predicting Earthquakes and Volcanoes: What Can and Can't Now Be Done (Part 4 of 7)
IRIS Earthquake Science

Predicting Earthquakes and Volcanoes: What Can and Can't Now Be Done (Part 5 of 7)
IRIS Earthquake Science

The Orphan Tsunami of 1700 - (Part 6 of 7)
IRIS Earthquake Science

The Orphan Tsunami of 1700 - (Part 2 of 7)
IRIS Earthquake Science

The Orphan Tsunami of 1700 - (Part 1 of 7)
IRIS Earthquake Science

The Orphan Tsunami of 1700 - (Part 3 of 7)
IRIS Earthquake Science

The Orphan Tsunami of 1700 - (Part 5 of 7)
IRIS Earthquake Science

The Orphan Tsunami of 1700 - (Part 4 of 7)
IRIS Earthquake Science

Predicting Earthquakes and Volcanoes: What Can and Can't Now Be Done (Part 3 of 7)
IRIS Earthquake Science

Geologic Structure at the Bottom of the World: Highlights from Antarctic Seismology
IRIS Earthquake Science

Lessons from Haiti and Japan Earthquakes
IRIS Earthquake Science

Mantle Dynamics Beneath a Young Volcanic Province: Observations and Models High Lava Plains, Oregon
IRIS Earthquake Science

Exploring the North American Upper Mantle Using EarthScope Data
IRIS Earthquake Science

The Source Complexities of Recent Megathrust Earthquakes as Imaged by the Back-Projection Method
IRIS Earthquake Science

Japan and Pacific Northwest Earthquakes (Part 4 of 4)
IRIS Earthquake Science

Predicting Earthquakes and Volcanoes: What Can and Can't Now Be Done (Part 1 of 7)
IRIS Earthquake Science

Predicting Earthquakes and Volcanoes: What Can and Can't Now Be Done (Part 2 of 7)
IRIS Earthquake Science

Japan and Pacific Northwest Earthquakes (Part 1 of 4)
IRIS Earthquake Science

Japan and Pacific Northwest Earthquakes (Part 3 of 4)
IRIS Earthquake Science

Japan and Pacific Northwest Earthquakes (Part 2 of 4)
IRIS Earthquake Science

Tectonic Earthquakes of the Pacific Northwest
IRIS Earthquake Science

Ghost Forests of the Pacific N.W.—Evidence for Cascadia's Past Earthquakes
IRIS Earthquake Science

UNAVCO animation: What can GPS tell us about future earthquakes in Cascadia? animation
IRIS Earthquake Science

Convergent Margin—Subduction to Tsunami (Educational)
IRIS Earthquake Science

GPS_3grid_subduction.mov
IRIS Earthquake Science

Borde convergente. Animación (en Español)
IRIS Earthquake Science

Volcanic evolution of the Pacific Northwest: 55 million year history
IRIS Earthquake Science

Volcano Monitoring with Tiltmeters and GPS (Educational)
IRIS Earthquake Science

Volcano Monitoring — Seismic (Educational)
IRIS Earthquake Science

GPS_graphFor 3grid_WithSeismic.mov
IRIS Earthquake Science

Japan and Pacific Northwest Earthquakes (Part 1 of 4)
IRIS Earthquake Science

Japan and Pacific Northwest Earthquakes (Part 2 of 4)
IRIS Earthquake Science

Japan and Pacific Northwest Earthquakes (Part 3 of 4)
IRIS Earthquake Science

Japan and Pacific Northwest Earthquakes (Part 4 of 4)
IRIS Earthquake Science

Predicting Earthquakes and Volcanoes: What Can and Can't Now Be Done (Part 1 of 7)
IRIS Earthquake Science

Predicting Earthquakes and Volcanoes: What Can and Can't Now Be Done (Part 2 of 7)
IRIS Earthquake Science

Predicting Earthquakes and Volcanoes: What Can and Can't Now Be Done (Part 3 of 7)
IRIS Earthquake Science

Predicting Earthquakes and Volcanoes: What Can and Can't Now Be Done (Part 4 of 7)
IRIS Earthquake Science

Predicting Earthquakes and Volcanoes: What Can and Can't Now Be Done (Part 5 of 7)
IRIS Earthquake Science

Predicting Earthquakes and Volcanoes: What Can and Can't Now Be Done (Part 6 of 7)
IRIS Earthquake Science

Predicting Earthquakes and Volcanoes: What Can and Can't Now Be Done (Part 7 of 7)
IRIS Earthquake Science