For Mac Ions Geologic As

The scientific study of the origin, history, and structure of the Earth. Earth Science Subreddits to check out:. which focuses on the identification of fossils, and for rock identification.

• For Mac Ions Geologic Assessment
• For Mac Ions Geologic Assistant

ION’s imaging services group has the tools, knowledge, and experience to help E&P operators better understand the geology of unconventional reservoirs including shale and tight gas plays, enabling them to maximize exploration and production. Geochemistry and geology of the Iron Mountain unit, Ingalls ophiolite complex, Washington 163 Esmeralda Peaks Unit The Esmeralda Peaks unit consists of gabbro, sparse. Structural Geology Programs for the Mac and Windows by Rick Allmendinger of Cornell University. Stereonet: General purpose stereographic projection program for plotting lines, planes, density contouring, rotations, etc. FaultKin: For kinematic analysis (P&T axes, P-T dihedra, fault plane solutions, etc.) of fault populations; includes basic database functions.

and which focus on paleontology., a community devoted to rockhounding., a subreddit all about gold prospecting., for meteorological related news, technology, research and events., for discussion and news on mining. &, for posts related to volcanoes Other subreddits you might be interested in:. For those seeking geology-related career and educational advice or information specifically about geology-related fields. A consortium of science links, for the unwary to devour., for people who like to dig, and are concerned about archaeological issues., for anything related to past climates and how they are reconstructed. Click to find out who Geologists are! It probably doesn't matter. You may run into situations where certain software only runs on the PC (and almost never the reverse), but you should be able to use your school's computer lab when that's the case if you really want to use a Mac.

When it comes time to be a professional I think you'll struggle to find a single company that will be using Macs, so keep that in mind, too. I'm back at school taking a few courses for my PGeo and I've seen as many, if not more, geo students using Macs, but I suspect their reasoning has nothing to do with appropriateness for the course and more to do with fashion. I don't think it matters. Looking at what the undergrads in my department use, it's a roughly equal distribution between Windows, Mac, and Ubuntu. Arc only works on PC but you could always dual-boot or some shit, or just work at school. My school computers are all PCs, though, which may be an issue when transferring files.

Other than that, it doesn't matter unless you've got some sort of specialized thing in mind. I mean, looking at what I use on a regular basis:. basic office applications + spreadsheet utility. LaTeX (not necessary, but it makes you look like you know what you're doing and your lab reports look sexy; compilers available for all distros).

some sort of Python implementation (also works with everything) GIS program (mentioned before). MATLAB - works on PC and OSX. There's an open source Linux version that's basically the same, but I haven't used it personally. Photoshop. Illustrator. None of it is restricted to any one OS and will even work on Linux (other than Adobe.

But fuck Adobe). On the other hand, hardware might be a concern. Since you're a student, I'd probably recommend against Macs unless you've got a lot of money lying around, since PCs are way cheaper for the hardware that you get (and you're going to want some processing power to run all those MATLAB scripts). But hey, maybe you have $$$$$$$ and like branding and indestructible metallic casing, so go for it if that floats your boat. Worst case scenario: you have to partition your hard drive to run something really specialized, but unless you're doing something pretty esoteric (and it'll likely only work on school computers anyway), you'll probably be a-okay no matter what OS you choose.

Usability and program compatibility/availability depend greatly on the particular field of sciences in which one is involved. As several people have mentioned here, ArcGIS apparently doesn't offer a mac client (I didn't know this, but I doubt they are lying), so it's probably true that people who do a lot of spatial data work might be better off with a windows machine.

On the other hand, lots of people work with unix based servers or supercomputers, in which case OSX can interact natively, while windows systems require terminal emulators. Because some fields are so focused on unix based programs, there can be issues running some of these programs on windows computers. Just as an example, take the software GMT (a super powerful mapping/plotting program(s)), it runs on windows, but look at what the software's homepage says about it. WINDOWS: DOS batch files rule.

If you just want to install Windows executables and get on with it, visit our GMT Windows page for access to Windows Installers. Note that many of the DOS example scripts utilize GNU awk; the WIN32 executable gawk has therefore been placed on all ftp sites. DOS batch files suck, part I. Because you cannot get much done with DOS batch jobs, we strongly recommend that you install Cygwin, a free UNIX emulation package for Windows. Cygwin lets you open shell windows and access standard UNIX tools such as tcsh, gcc, etc. You would then install GMT as described above for UNIX/Linux. DOS batch files suck, part II.

If you run Windows, you can get access to csh command windows by installing the freely available Windows Services for UNIX, a UNIX environment for Windows. SFU lets you install GMT as described for UNIX/Linux above. DOS batch files suck, part III. Finally, you may consider the option of running Linux within a virtual machine, such as VMWare or VirtualBox, and then pursue the general Linux/UNIX install option.

Cygwin sucks. Cygwin is painfully slow to run configure scripts and to launch programs (once launched, programs run fast), so actually the best and easiest way of running GMT under Cygwin is to use the Windows native binaries. All it takes for this solution is to install the Windows executables (GMT Windows) and add the GMT Win bin directory to your Cygwin path via the.bashrc file. For OSX it's just a simple DL and compile.

You simply stated that you had 'never seen a serious science major' who used a mac. As someone who is about a year from finishing their PhD, I can tell you that many 'serious' scientists use macs, and that they probably have greater than 50% market share in my particular corner of geoscience, other corners may vary. I'm not sure why you are trying to get into a flame war over operating systems, that seems pretty dumb.

Finally, I'm not sure why you went out of your way to shit all over the liberal-arts/humanities straw man, but it makes it seem like an immature twat.

Oceanography III (Chemical). 2 Credit Hours. The third section of the course core curriculum designed as an integrated and multidisciplinary view of ocean processes, covering the major disciplines of marine science and their applications to the study of the marine environment. To b e taken in dequence with Oceanography I - Geological (MGG 501), Oceanography II - Physical , and Oceanography IV - Biological (MBF 502).

This course is for non-MAC majors only. Prerequisite: Undergraduates require permission of instructor. Components: LEC. Grading: GRD. Typically Offered: Spring. Oceanography II (Physical).

2 Credit Hours. The second section of the course core curriculum designed as an integrated and multidisciplinary view of ocean processes, covering the major disciplines of ma rine science and their applications to the study of the marine environment.

To be taken in sequence with Oceanography I - Geological (MGG 501), Oceanography I II - Chemical (MAC 501), and Oceanography IV - Biological (MBF 502). This cours e is for non-MPO majors only. Components: LEC. Grading: GRD. Typically Offered: Fall.

Analytical Methods in Marine and Atmospheric Chemistry. 1 Credit Hour. A survey of analytical methods as applied to oceanographic and atmospheric chemistry.

Course is taught in a multi-instructor format. Topics include trace organic analysis by HPLC, GC, and GC-MS, laser induced fluorescence detection of gas phase atoms, differential absorption detection of atmospheric species, aerosol sampling, ion chromatography, photochemical techniques, oceanographic tracers, microbiological techniques, and computational resources. Course is designed to be taught in conjunction with MAC 503. Components: LAB.

Grading: GRD. Typically Offered: Fall. Coastal Physics and Engineering. 3 Credit Hours. Course addresses linear wave theory, wave statistics, wave generation, tides, wind-driven currents, nearshore circulation, sediment transport by waves and currents, bedforms, bedload, and suspended load.

Other topics include longshore and cross-shore transport, equilibrium beach profiles, coastal processes models, Pelnard-Considere model for shoreline change, and Escoffier model for inlet stability. Components: LEC. Grading: GRD. Typically Offered: Spring.

Marine Organic Geochemistry. 3 Credit Hours. Broad introduction to the chemical constituents comprising organic matter in marine environments. This course will address how biological origins, dietary and detrital reworking, and physical phase influence the distribution and fluxes of organic matter in the marine carbon cycle, on both short and long timescales. Topics will address both the water column and sediments, in open-ocean and coastal environments.

Students may choose topics of specific interest to their research for presentations and writing assignments (subject to instructor approval). The first half of the course will focus on the chemistry and physical phases of organic matter; the second half will focus on discussing the application of organic geochemical tools to environmental questions via the primary literature.

Components: LEC. Grading: GRD. Typically Offered: Fall. Environmental Hydrology. 3 Credit Hours. An introduction to the physical processes of hydrological science. The principles of evapotranspiration, precipitation, infiltration, groundwater flow, seepage, overland flow, and stream flow are expounded.

For Mac Ions Geologic Assessment

Areas of interrelation with environmental, marine, and geophysical sciences are emphasized. Measurement techniques for hydrological variables and the statistical analysis of hydrological data time series for runs and extremes are also described. Components: LEC.

Grading: GRD. Typically Offered: Fall. Ocean Data Analysis. 3 Credit Hours. Useful and widely used ocean data analysis techniques are discussed. Topics covered include: a review of statistical concepts and linear algebra; time series analysis; least squares and regression techniques; principal component analysis; optimization and inverse methods; and simple models of ocean processes. Computational methods are emphasized.

Choice of the material covered is dictated in part by student interests. Components: LEC. Grading: GRD.

Typically Offered: Spring. Fluid Mechanics. 3 Credit Hours. The equations governing the dynamics of homogeneous fluids are derived. The concepts of deformation rates, vorticity, stream function, and ideal fluid flow are introduced and demonstrated in applications describing flows in the marine environment. Semi-empirical methods for analyzing viscous flows, boundary layers, and turbulence are presented.

Eddy viscosity and more advanced turbulence closure schemes are discussed in the context of coastal circulation, bottom boundary layers and sediment transport. Components: LEC. Grading: GRD. Typically Offered: Fall. Applied Remote Sensing.

3 Credit Hours. This 3-credit course is to provide the student with a solid understanding of satellite remote sensing. The course will focus on practical aspects, including, but not limited to, problem solving in class and hands-on data processing and analysis. Students are expected to attend MPO//642 (Physics of Remote Sensing I: Passive Systems) and MPO//643 (Physics of Remote Sensing II: Active Systems) that focus on the theory of remote sensing.

The companion course MPO//687 (Applied Radar Remote Sensing) is offered in the Spring Semesters. Components: LEC. Grading: GRD. Typically Offered: Fall.

For Mac Ions Geologic Assistant

Applied Radar Remote Sensing. 3 Credit Hours. This course complements MPO//643 (Physics of Remote Sensing II: Active Systems) with additional lectures and exercises tailored specifically to the needs of MPS students.

Students taking this course will learn how to obtain, read, and process radar images from remote sensing satellites and from ship-based marine radars and how to perform some fundamental tasks to identify, enhance, and interpret signatures of various features in the images on their own computer. Components: LEC. Grading: GRD. Typically Offered: Spring.