Presentation is loading. Please wait.

Presentation is loading. Please wait.

GEO 5/6690 Geodynamics 14 Nov 2014 © A.R. Lowry 2014 Read for Wed 19 Nov: T&S 226-241 Last Time: Te and Dynamics Force balance for subduction slab angle.

Published byMadison Lyons Modified over 8 years ago

Similar presentations

Presentation on theme: "GEO 5/6690 Geodynamics 14 Nov 2014 © A.R. Lowry 2014 Read for Wed 19 Nov: T&S 226-241 Last Time: Te and Dynamics Force balance for subduction slab angle."— Presentation transcript:

1 GEO 5/6690 Geodynamics 14 Nov 2014 © A.R. Lowry 2014 Read for Wed 19 Nov: T&S 226-241 Last Time: Te and Dynamics Force balance for subduction slab angle (T&S 6-11!) includes slab buoyancy, (absolute) velocity of over-riding plate, aperture of wedge flow (plate thickness + subduction angle!) & viscosity of subduction wedge Observation (Pérez-Gussinyé et al. 2008): South American flat slab (Peru, Chile) has (possibly) buoyant crust near southern edges, otherwise no strong correlation to buoyancy or trench velocity… But strong correlation to distance from trench to high T e ! Models confirm that thicker over-riding plate near the trench favors flat slab subduction (but only for idealized slab with unrealistic rheology… Breaks down for real-Earth?) Moral ?

2 Next Journal Article Reading: For Monday Nov 17: Karow & Hampel (2010) Slip rate variations on faults in the Basin-and-Range province caused by regression of Late Pleistocene Lake Bonneville and Lake Lahontan, Int. J. Earth Sci. 99 1941-1953. (Nick will lead)

3 Isostasy with a viscoelastic fluid asthenosphere (“Rebound”) Given some initial sinusoidal deflection of the Earth’s surface: where k is wavenumber = 2  /  what is the evolution of w through time? Elevated beaches or “strandlines” in Hudson’s Bay region of Canada…

4 We impose: (1) Conservation of fluid: (2D) (This is referred to as an incompressible fluid!) u v x z z +  z x +  x

5 We impose: (2) Elemental force balance: includes pressure forces, viscous forces, and body force (= gravity). For pressure forces, the imbalance is given by the pressure gradients: (2D) p(x)zp(x)z p(z)xp(z)x x z z +  z x +  x p(z+  z)  x p(x+dx)  z

6 We impose: (2) Cont’d: viscous forces : The net viscous forces are given by (to first order). For a Newtonian fluid with viscosity ,  zz (z)  x x z z +  z x +  x  zz (z+  z)  x  xx (x)  z  xx (x+  x)  z  xz (x)  z  xz (x+  x)  z  zx (z)  x  zx (z+  z)  x

7 The body force is simply  x  z in the z direction; typically we simplify pressure by subtracting a hydrostatic: P = p –  gz Then (after some algebra; see T&S) we have the force balance equations:

8 We can define a stream function  (= potential of the flow field) such that (for an incompressible fluid): is flow velocity in the x -direction; is flow velocity in the z -direction (vertical). Solutions  must satisfy: Substituting for u and v, find the biharmonic equation has (eigenfunction) solutions of the form: and

9 Solving (with boundary conditions) we find that: Where decay constant

10 Everybody’s favorite local example: Gilbert was the first to recognize that shorelines of former Lake Bonneville are higher in the middle than at the edges…

11 By a lot!

Download ppt "GEO 5/6690 Geodynamics 14 Nov 2014 © A.R. Lowry 2014 Read for Wed 19 Nov: T&S 226-241 Last Time: Te and Dynamics Force balance for subduction slab angle."

Similar presentations

Chapter 2 Introduction to Heat Transfer

Chapter 2 Introduction to Heat Transfer
Subduction Zone Observatory Big Geodynamics-Related Science Questions Magali Billen Department of Earth & Planetary Sciences UC Davis Collaborators & Students:

Subduction Zone Observatory Big Geodynamics-Related Science Questions Magali Billen Department of Earth & Planetary Sciences UC Davis Collaborators & Students:
GEO 5/6690 Geodynamics 10 Oct 2014 Last Time: RHEOLOGY

GEO 5/6690 Geodynamics 10 Oct 2014 Last Time: RHEOLOGY
CHAPTER 2 DIFFERENTIAL FORMULATION OF THE BASIC LAWS 2.1 Introduction  Solutions must satisfy 3 fundamental laws: conservation of mass conservation of.

CHAPTER 2 DIFFERENTIAL FORMULATION OF THE BASIC LAWS 2.1 Introduction  Solutions must satisfy 3 fundamental laws: conservation of mass conservation of.
Particle Acceleration Particle t t+dt. Physical Interpretation Total acceleration of a particle Local acceleration Convective acceleration time velocity.

Particle Acceleration Particle t t+dt. Physical Interpretation Total acceleration of a particle Local acceleration Convective acceleration time velocity.
Navier-Stokes: We All Know What Happens When You Assume

Navier-Stokes: We All Know What Happens When You Assume
GEO 5/6690 Geodynamics 12 Nov 2014 © A.R. Lowry 2014 Read for Fri 14 Nov: T&S 226-241 Last Time: Te and Rheology Key point of Willett et al. papers: T.

GEO 5/6690 Geodynamics 12 Nov 2014 © A.R. Lowry 2014 Read for Fri 14 Nov: T&S Last Time: Te and Rheology Key point of Willett et al. papers: T.
GEO 5/6690 Geodynamics 05 Nov 2014 © A.R. Lowry 2014 Read for Fri 7 Nov: T&S 226-241 Last Time: Flexural Isostasy Tharsis example Is the Tharsis province.

GEO 5/6690 Geodynamics 05 Nov 2014 © A.R. Lowry 2014 Read for Fri 7 Nov: T&S Last Time: Flexural Isostasy Tharsis example Is the Tharsis province.
..perhaps the hardest place to use Bernoulli’s equation (so don’t)

..perhaps the hardest place to use Bernoulli’s equation (so don’t)
Surface Waves. Surface Tension  Water surface is not fixed. Behaves elastically Based on surface tension  Surface tension can be measured in a thin.

Surface Waves. Surface Tension  Water surface is not fixed. Behaves elastically Based on surface tension  Surface tension can be measured in a thin.
Groundwater 40x larger than lakes+rivers

Groundwater 40x larger than lakes+rivers
AOSS 321, Winter 2009 Earth System Dynamics Lecture 6 & 7 1/27/2009 1/29/2009 Christiane Jablonowski Eric Hetland cjablono@umich.edu ehetland@umich.edu.

AOSS 321, Winter 2009 Earth System Dynamics Lecture 6 & 7 1/27/2009 1/29/2009 Christiane Jablonowski Eric Hetland
An Introduction to Stress and Strain

An Introduction to Stress and Strain
Nonsequitur Science searches for the true by tying to eliminate the untrue. “It is a process of separating the demonstrably false from the probably true.”

Nonsequitur Science searches for the true by tying to eliminate the untrue. “It is a process of separating the demonstrably false from the probably true.”
1 MFGT 242: Flow Analysis Chapter 3: Stress and Strain in Fluid Mechanics Professor Joe Greene CSU, CHICO.

1 MFGT 242: Flow Analysis Chapter 3: Stress and Strain in Fluid Mechanics Professor Joe Greene CSU, CHICO.
Lecture #19: Fluid Dynamics I

Lecture #19: Fluid Dynamics I
Stress, Strain, and Viscosity San Andreas Fault Palmdale.

Stress, Strain, and Viscosity San Andreas Fault Palmdale.
Flow and Thermal Considerations

Flow and Thermal Considerations
Hydrostatic Pressure distribution in a static fluid and its effects on solid surfaces and on floating and submerged bodies. Fluid Statics M. Bahrami ENSC.

Hydrostatic Pressure distribution in a static fluid and its effects on solid surfaces and on floating and submerged bodies. Fluid Statics M. Bahrami ENSC.
Hans Burchard Leibniz Institute for Baltic Sea Research Warnemünde Coastal Ocean Dynamics First course: Hydrodynamics.

Hans Burchard Leibniz Institute for Baltic Sea Research Warnemünde Coastal Ocean Dynamics First course: Hydrodynamics.

Similar presentations

Ads by Google