Hello scholars, here in this article, we’d be talking about the definition of Geophysics, it’s courses and objectives. Hold on tight.
What is Geophysics?
Geophysics in it’s simplest form, is the physics of the solid earth. It is a subject of natural science concerned with the physical processes and properties of the Earth and its surrounding space environment, and the use of quantitative methods for their analysis.
Geophysics professional training is done with a solid mathematical foundation and the basic theory of systematic geophysics, basic knowledge and basic skills, basic training basic research and applied basic research, with better scientific literacy and preliminary teaching, research capacity, Senior professionals who can engage in scientific research, teaching, technology development and management in scientific research institutions, colleges and universities or related technical and administrative departments.
Geophysics Courses, Objectives and Knowledge Skills
Main Disciplines: Geology, Physics, Mathematics, Computer
Core knowledge area: The core knowledge area of this major consists of knowledge units such as physics, earth science, exploration geophysics, and digital signal processing.
Core Courses: University Physics, University Physics Experiments, Geological Basics, Probability and Mathematical Statistics, Complex Variable Functions, Calculation Methods, Mathematical Physics Equations, Scientific Computing Theory and Practice, Data Structures and Computer Graphics, Principles of Geophysics, Rocks Physics, geophysical observations and experiments, methods of exploration geophysics, space physics, experimental geophysics, etc.
Examples of core courses:
Example 1: Basics of geology (80 hours), mathematical physics methods (126 hours), numerical calculation (36 hours), geophysical field theory (108 hours), basics of digital signal processing (54 hours), solid geophysics (54 Hours), principles of exploration seismology (64 hours), principles of exploration gravity and magnetism (64 hours), geoelectricity (including geothermal) (64 hours), drilling geophysics (64 hours).
Example 2: Basics of geology (136 hours), mathematical physics equations (48 hours), numerical analysis (40 hours), field theory (56 hours), digital signal processing (48 hours), solid geophysics (40 hours), Principles of seismic exploration (32 hours), gravity and magnetic exploration (88 hours), principles of electromagnetic exploration (32 hours), geophysical logging (40 hours).
Example 3: General Geology and Comprehensive Geology (136 hours), Numerical Analysis (46 hours), Computational Geophysics (46 hours), Geophysical Field Theory (76 hours), Digital Signal Processing (46 hours), Geophysics Comprehensive application and interpretation of the method (30 credit hours), seismology and seismic exploration (60 credit hours), geomagnetism and magnetic exploration (30 credit hours), geoelectricity and electrical exploration (76 credit hours), geophysical logging (60 credit hours).
Main practical teaching links: including experiments and internships in the main courses. Field geological practice, graduation internship, etc. are generally arranged for 6-12 weeks.
Cultivate all-round development of moral, intellectual, and physical aspects, have a solid mathematical foundation, master the basic theories, basic knowledge, and basic skills of geophysics, and have basic research and applied research skills that can engage in the practical work and preliminary work of this specialty Compound talents. At the same time, students in this major must have the ability to deal with technical problems at a certain level.
Students majoring in geophysics mainly learn basic theories and basic knowledge of geophysics, receive scientific thinking and scientific experimental training in basic research and applied basic research, and master deep earth structures, earthquake prediction, geophysical engineering, energy and mineral resources Basic skills in research and development such as surveying.
Graduates should acquire the following knowledge and capabilities:
1. Master basic theories and basic knowledge in mathematics, physics, geology, etc .;
2. Master the basic theory, basic knowledge and basic experimental skills of geophysics, as well as the basic skills of deep earth structure, earthquake prediction, geophysical engineering, energy and mineral resources exploration;
3．Understand the general principles and knowledge of similar majors;
4．Understand national science and technology, industrial policies, intellectual property and other related policies and regulations;
5．Understand the theoretical frontier, application prospects and latest developments of geophysics ;
6. Master the basic methods of data inquiry, literature retrieval and use of modern information technology to obtain relevant information; have certain experimental design, create experimental conditions, summarize, organize, analyze experimental results, write papers, and participate in academic exchanges.