Masters Geology Project Topics and Materials

1. MASTERS GEOLOGY PROJECT TOPICS AND MATERIALS
ATTENTION:
BEFORE YOU READ THE PROJECT TOPICS BELOW, PLEASE READ THE INFORMATION
BELOW.THANK YOU!
NOTE:
WE WILL SEND YOU THE ABSTRACT, TABLE OF CONTENT AND CHAPTER ONE OF YOUR
APPROVED TOPIC FOR FREE.
CHOOSE FROM THE LIST OF TOPICS BELOW. SEND YOUR EMAIL ADDRESS AND THE
APPROVED PROJECT TOPIC TO ANY OF THESE NUMBERS-08068231953, 08168759420
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MASTERS GEOLOGY PROJECT TOPICS AND MATERIALS
1. Application of Paleomagnetism to Track the Jurassic
True Polar Wander in Mountain Kilimanjaro
2. Extending Measuring Capability of the SushiBar
3. 3-D Q Variations from Mantle Circulation Models
and their Effects on Travel Times and Amplitudes of
Seismic Waves
4. Analysis of rotational motion amplitudes on local
and global scales

2. 5. Effects of a 3-D crust on diffraction-induced
dispersion of traveltime residuals in a mantle
circulation model
6. The case for 6-component ground motion
observations in planetary seismology
7. Application of Passive Noise Interferometry for
Structural Health Monitoring of a Concrete Bridge –
Case Study: River Niger Bridge.
8. Measuring space weather signals in geomagnetic
observations on the ground München
9. A Seismic Noise Map for Enugu South Lga
10. Analysis of the Magnetic Field in Numerical
Dynamo Simulations with Different Aspect Ratios
11. Effects of small-scale heterogeneities on seismic
wavefield: translational vs. rotational motions
12. Estimating Plume Travel Times and Dynamic
Topography: A Study of Synthetic Experiments
13. Application of 6C Sensors to VSP Experiments

3. 14. Six Components Recordings of Ambient Noise –
The Future of Microzonation?
15. Fortran 90 Implementation of Finite Difference –
Summation-by-Parts (SBP) – Simultaneous
Approximation Term (SAT) method for 3D Seismic
Wave Propagation
16. Rayleigh Wave Dispersion Curves from Array
Derived Rotation and Translational Motion
17. Kinematic ground-motion simulations for
complex geometry earthquakes
18. Continental Scale Full Waveform Inversion of
the savanna region.
19. Dynamic ruptures on geometrically complex
fault systems
20. Effect of the inner core conductivity on the
reversing behavior of the geodynamo
21. Stress inversion of the 2013 Mt. Hochstaufen
swarm earthquakes

4. 22. Magnetotactic bacteria population dependency
on sediment porosity
23. Relative relocation, cluster analysis and
estimation of spatial and temporal Vp/Vs changes of
swarm earthquakes.
24. Array derived rotation of ambient noise
measured in Nigeria.
25. Adaptation & Evaluation of a Caesium-Vapour
Magnetometer for Geophysical Prospection on
Archaeological Sites.
26. Reducing non-uniqueness in probabilistic finite
fault inversion for a normal fault.

5. 27. Rothenhäusler, Nicolas (2015), Analysis of
ambient seismic noise sources for Parkfield using
three-component beamforming.
28. Uncertainty Analysis for the Modeling of
Earthquake Risk under Consideration of a Single-
Risk Functionality.
29. Microseismic Characterization of Rock
Fracturing induced by Ice Segregation in a Long-
term Laboratory Experiment

6. 30. A mantle convection model with cratonic roots –
through lateral viscosity variations in the upper
mantle.
31. Numerical simulation of waveform propagation
on local scale for shallow, induced earthquakes.
32. Three Dimensional Regional / Continental Scale
Tomographic Model Using the Adjoint Method

7. 33. Monitoring Postseismic Velocity Changes at
Parkfield with 3-Component Records.
34. Processing of body-wave data from the
Colombian National Seismic Network for finite-
frequency tomography in the Caribbean region.

8. 35. Magnetic Properties of a High-Energy Planetary
Ball Milled Iron-Nickel Alloy and Dependence on
Milling Duration and Consequent Grain Size.
36. Manoli, Stella (2014), Fluxgate Magnetometer
for Archaeological Prospecting. Adaptation,
Installation, Set-up and comparative measurements
with Caesium Magnetometer on Archaeological sites
in Nigeria.

9. 37. Simulation of earthquake rupture dynamics
under rate-and-state friction and effects on the
generated ground motions in a dipping fault system.
38. Non-Destructive Testing of a Civil structure
using Seismic Signals.
39. State-of-the-Art Review and Analysis in
Earthquake Forecasting.

10. 40. Numerical Analysis of the ADER-DG Method for
Dynamic Earthquake Ruptures on Bi-material
faults.
41. Improvement of cross-correlation
measurements on seismic waveforms with Python-
based tools.

11. 42. Adding a Lithospheric Model to Geodynamically
Derived Seismic Mantle Structures.
43. The Influence of Anelasticity on the
Temperature Sensitivity of Seismic Wave Velocities
and its Impact on Seismic Observations.
44. Rayleigh numbers and convection modelling.

12. 45. Estimating the Earth’s magnetic field intensity
from the swimming properties of magnetotactic
bacteria.
46. Array Derived Rotation Estimation of Phase
Velocities Using Spatial Autocorrelation Arrays.
47. Elasticity of Rocks as a Function of Composition
and Fabric – An Investigation on the Vibration
Behaviour of Rock Plates.

13. 48. Sensitivity kernels in small-scale coupling
acoustic-elastic models.
49. Numerical Modelling of the Vernagt Ferner.

14. 50. P-wave Traveltimes for Seismic Waveform
Tomography from an Ocean Bottom Seismometer
Experiment Around Lagoon, Lagos state.
51. Analysing the 2009 Earthquake Swarm at
Mount Kilimanjaro
52. Paleomangetic and Rock Magnetic Studies of
Jurassic Volcanic Flood Basalts.
53. Luo, Cong (2012), Magnetohydrodynamic
Simulation of Plasma-Magnetosphere Interaction.
54. Teleseismic S-wave Data for Global
Tomography.

15. 55. Magnetic Prospecting and 3D Modeling of
Selected Neolithic Ring Ditches.
56. on Magnetosome Chain Collapse in Artificial
Sediments
57. Spreading velocity variations in the Lagos
island.
58. Tetrahedral grid generation for geophysical
models with CUBIT

16. 59. Phase velocity and source direction estimation
using collocated measurements of rotational and
translational motions from ambient noise.
60. A Seismic Waveform Dataset from the Pacific
Ocean for Finite-Frequency Tomography.
61. Investigation of abnormal quiet days.
62. MORE TOPICS

17. 63. What have been the biggest challenges faced by
researchers in the field concerned about climate
problems affecting how field studies have developed?
64. Conduct a comprehensive research study of the
ocean and atmosphere and provide a way to track
changes in a highly effective and efficient matter.
65. How is global warming affecting the oceans and
climate in different parts around the globe? What
areas will face the first noticeable impact that
should lead to policy change?

18. 66. How much does global policy change impact the
climate felt in developing parts of the world? Is there
a responsibility from developed countries to do
more?
67. What current process are the most effective in
tracking the fossil record of life and general
evolution? Can you propose a new process that will
improve how information is collected?
68. Choose a tropic area and discuss the ways in
which global warming has affected its native wild life
and plant life. How significant have the changes
been over the last century?

19. 69. Can geology and geophysics provide a detailed
record of how the climate has changed since the
start of the industrial revolution? How much of this
is purely because of human interaction?
70. On field work, what flaws exist in the way
information is studied and then recorded? Do you
believe that much of the information we know about
the planet today is partially incorrect?
71. Contrary to what many believe rising ocean
levels, not lowering, is the most likely outcome of
global warming’s effects on the polar caps? What

20. does research suggest will happen to coastal towns
around the globe?
72. What effects does the Lagos state weather
system have on coral reefs in other parts of the
world? How do changes in the ocean impact the
human population?
73. Conduct a field study on soil composition in an
area of your choice and comparing it to other similar
areas with the same climate.
74. How does continental shifting in the oceans
affect the weather systems of coastal towns and how

21. has this affected the way people live near these
areas?
HOW TO RECEIVE PROJECT MATERIAL(S)
After paying the appropriate amount (#5,000) into our bank Account below, send the
following information to
08068231953 or 08168759420
(1) Your project topics
(2) Email Address
(3) Payment Name
(4) Teller Number
We will send your material(s) after we receive bank alert
BANK ACCOUNTS
Account Name: AMUTAH DANIEL CHUKWUDI
Account Number: 0046579864
Bank: GTBank.

22. OR
Account Name: AMUTAH DANIEL CHUKWUDI
Account Number: 3139283609
Bank: FIRST BANK
FOR MORE INFORMATION, CALL:
08068231953 or 08168759420
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