Geology & Exploration

Milligal (seismic)

The Milligal: Unraveling the Language of Earth's Gravity

Understanding the forces that shape our planet is crucial for everything from predicting earthquakes to navigating with precision. One of the key factors in this understanding is gravity, and a unit called the milligal plays a crucial role in its measurement.

A Unit of Acceleration:

The milligal (mGal) is a unit of acceleration used in measuring the strength of Earth's gravitational field. It's essentially a measure of how quickly an object would accelerate downwards due to gravity.

Relationship with the Gal:

The milligal is derived from the Gal, a larger unit of acceleration named after the Italian scientist Galileo Galilei. The relationship is simple:

  • 1 Gal = 1,000 milligal

Conversion to Standard Units:

The Gal itself is defined in terms of centimeters per second squared:

  • 1 Gal = 1 cm/sec²

Therefore, one milligal can be expressed as:

  • 1 milligal = 0.01 cm/sec²

Measuring Gravity's Subtleties:

The milligal is a tiny unit of acceleration. Earth's average gravitational acceleration is approximately 980,000 milligals. However, the gravitational field is not uniform across the globe. Variations in Earth's density, topography, and even the presence of underground structures can cause localized changes in gravity, measured in milligals.

Applications in Geophysics:

Milligal measurements are essential for various geophysical applications, including:

  • Geodesy: Studying the shape and size of the Earth
  • Gravity Surveys: Mapping variations in Earth's gravitational field to understand subsurface structures and mineral deposits
  • Earthquake Prediction: Monitoring changes in gravity that could signal impending seismic events
  • Oil and Gas Exploration: Identifying underground formations that might contain hydrocarbons

Understanding the "Gravity Units":

While the term "milligal" is commonly used in geophysics, you might also encounter the term "gravity units" (GU).

  • 1 milligal = 10 gravity units

The "gravity unit" is a less standardized unit and can lead to confusion. Therefore, it's always recommended to use the term "milligal" for accurate and unambiguous communication.

Conclusion:

The milligal is a crucial unit in understanding Earth's gravity and its variations. Its application in various fields, from geodesy to earthquake prediction, highlights the significance of precision in measuring this fundamental force. As we delve deeper into the mysteries of our planet, the milligal will undoubtedly continue to play a vital role in unraveling the secrets hidden beneath our feet.


Test Your Knowledge

Milligal Quiz:

Instructions: Choose the best answer for each question.

1. What is the milligal (mGal) primarily used for? a) Measuring the mass of objects b) Measuring the strength of Earth's gravitational field c) Measuring the distance between two points d) Measuring the speed of light

Answer

b) Measuring the strength of Earth's gravitational field

2. What is the relationship between the milligal (mGal) and the Gal? a) 1 Gal = 10 mGal b) 1 Gal = 100 mGal c) 1 Gal = 1,000 mGal d) 1 Gal = 10,000 mGal

Answer

c) 1 Gal = 1,000 mGal

3. How is 1 milligal expressed in standard units (cm/sec²)? a) 1 cm/sec² b) 0.1 cm/sec² c) 0.01 cm/sec² d) 0.001 cm/sec²

Answer

c) 0.01 cm/sec²

4. Which of these applications DOES NOT utilize milligal measurements? a) Studying the shape of Earth b) Predicting earthquakes c) Measuring the speed of a car d) Exploring for oil and gas

Answer

c) Measuring the speed of a car

5. Why is it recommended to use the term "milligal" instead of "gravity units" (GU)? a) "Gravity units" is a less standardized term. b) "Milligal" is a more accurate unit. c) "Gravity units" is outdated. d) Both a and b.

Answer

d) Both a and b.

Milligal Exercise:

Imagine a geologist is studying the gravitational field in a region known for its mineral deposits. They use a gravity meter and find that the gravitational acceleration at a specific point is 980,015 mGal. The average gravitational acceleration at the Earth's surface is 980,000 mGal. Calculate the difference in gravitational acceleration at this location compared to the average. Express your answer in milligals.

Exercice Correction

Difference in gravitational acceleration = 980,015 mGal - 980,000 mGal = 15 mGal.


Books

  • Gravity and Magnetism by W.D. Parkinson - A comprehensive book on the theory and application of gravity and magnetic methods in geophysics.
  • Geophysical Exploration: An Introduction to Geophysical Methods and Data Analysis by M. Telford, L. Geldart, R. Sheriff, and D. Keys - Provides a thorough introduction to various geophysical methods, including gravity surveys, and explains the concepts of gravity units and milligals.
  • Introduction to Geophysics by F.F. Ritsema - A comprehensive textbook covering various aspects of geophysics, including a section on the fundamentals of gravity and its measurement.

Articles

  • Gravity Exploration: An Overview by R.L. Gillingham - A detailed overview of the principles and applications of gravity surveys in various fields like mineral exploration and petroleum exploration.
  • The Gravity Method in Geophysics: A Tutorial by H.V. Green - A tutorial article on the gravity method, explaining the basics of gravity measurements and their interpretation.
  • Gravity Measurements and Their Application in Geophysics by A.G. Woollard - This paper discusses the principles of gravity measurements and their applications in various geological and geophysical studies.

Online Resources

  • Gravity Field and the Geoid (International Association of Geodesy) - Provides detailed information on the Earth's gravity field, including its variations and measurement using milligals.
  • Gravity and Magnetics (Geoscience Australia) - This website provides information on the principles of gravity and magnetic methods in exploration geophysics and their applications.
  • Gravity and Geoid (University of California, Berkeley) - This website offers a comprehensive overview of gravity and its applications in geodesy and geophysics, including the milligal unit.

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  • "Gravity Units" + "Milligal": Explore the relationship between these units and their applications in gravity surveys.
  • "Gravity Surveys" + "Applications": Search for articles and resources on the applications of gravity surveys in various fields.

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