![SOLVED: An earthquake with the moment tensor: M11=-1.8, Mzzz=-1.9, M33=3.7, M1z=0.38, M31=-0.96, M3z=0.62 (all numbers in 10^17 Nm). To obtain stable results, this moment tensor solution constrained the isotropic component to be SOLVED: An earthquake with the moment tensor: M11=-1.8, Mzzz=-1.9, M33=3.7, M1z=0.38, M31=-0.96, M3z=0.62 (all numbers in 10^17 Nm). To obtain stable results, this moment tensor solution constrained the isotropic component to be](https://cdn.numerade.com/ask_images/fd1de632bba7454f9176b10330436822.jpg)
SOLVED: An earthquake with the moment tensor: M11=-1.8, Mzzz=-1.9, M33=3.7, M1z=0.38, M31=-0.96, M3z=0.62 (all numbers in 10^17 Nm). To obtain stable results, this moment tensor solution constrained the isotropic component to be
![Full moment tensor solution and decomposition example of the 7 November... | Download Scientific Diagram Full moment tensor solution and decomposition example of the 7 November... | Download Scientific Diagram](https://www.researchgate.net/publication/341524615/figure/fig1/AS:893318451978260@1589995124531/Full-moment-tensor-solution-and-decomposition-example-of-the-7-November-2010-M-L-46.png)
Full moment tensor solution and decomposition example of the 7 November... | Download Scientific Diagram
![A comparison of moment tensor (MT) solutions and shear-tensile crack... | Download Scientific Diagram A comparison of moment tensor (MT) solutions and shear-tensile crack... | Download Scientific Diagram](https://www.researchgate.net/profile/J-Sileny/publication/259741572/figure/fig6/AS:667810082607123@1536229739748/A-comparison-of-moment-tensor-MT-solutions-and-shear-tensile-crack-STC-solutions-The.png)
A comparison of moment tensor (MT) solutions and shear-tensile crack... | Download Scientific Diagram
![SE - Regional centroid moment tensor inversion of small to moderate earthquakes in the Alps using the dense AlpArray seismic network: challenges and seismotectonic insights SE - Regional centroid moment tensor inversion of small to moderate earthquakes in the Alps using the dense AlpArray seismic network: challenges and seismotectonic insights](https://se.copernicus.org/articles/12/1233/2021/se-12-1233-2021-f08-high-res.png)
SE - Regional centroid moment tensor inversion of small to moderate earthquakes in the Alps using the dense AlpArray seismic network: challenges and seismotectonic insights
![A Model for Visual Assessment of Fault Plane Solutions and Active Tectonics Analysis Using the Global Centroid Moment Tensor Catalog | SpringerLink A Model for Visual Assessment of Fault Plane Solutions and Active Tectonics Analysis Using the Global Centroid Moment Tensor Catalog | SpringerLink](https://media.springernature.com/lw685/springer-static/image/art%3A10.1007%2Fs41748-019-00142-9/MediaObjects/41748_2019_142_Fig5_HTML.png)
A Model for Visual Assessment of Fault Plane Solutions and Active Tectonics Analysis Using the Global Centroid Moment Tensor Catalog | SpringerLink
![SCEC2022 Poster #058: Moment Tensor Catalog for California Using 3D Green's Functions | Southern California Earthquake Center SCEC2022 Poster #058: Moment Tensor Catalog for California Using 3D Green's Functions | Southern California Earthquake Center](https://files.scec.org/s3fs-public/publication_12502.jpg?muS1RoLUPnNKzjexk0_0rds2y9wri7_d)