Gravity Surveying in Early Geophysics. I. From Time-Keeping to Figure of the Earth

Howarth, Richard J.

doi:10.17704/eshi.26.2.7460m485n5701845

Cited by 8 publications

(2 citation statements)

References 29 publications

(12 reference statements)

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“…Our fascination with gravity dates back to the ancient Greeks, and measuring gravitational acceleration was among the first pursuits in modern science. Geophysicists in the eighteenth century used pendula to make such measurements 7 . But, since then, tools for gravimetry have been the subject of intensive development -from simple spring based devices, all the way to presentday instruments based on quantum technology.…”

Section: Roman Pašteka and Pavol Zahorecmentioning

confidence: 99%

Atomic changes can map subterranean structures

Poli¹,

Pašteka²,

Zahorec³

2022

Nature

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Atomic changes can map subterranean structuresA quantum device uses ultracold atoms to sense gravitational changes that can detect a tunnel under a city street. Here, scientists discuss the advance from the viewpoints of quantum sensing and geophysics. See p.590The paper in brief • Precise measurements of vertical gradients in gravity can be used to detect inhomogeneities in density under Earth's surface. • On page 590, Stray et al. 1 report a practical quantum sensor that uses atom interferometry to measure gravity gradients rapidly, and with high sensitivity.

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Section: Roman Pašteka and Pavol Zahorecmentioning

confidence: 99%

Atomic changes can map subterranean structures

Poli¹,

Pašteka²,

Zahorec³

2022

Nature

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“…Part I of this review (Howarth, 2007) described how following Isaac Newton's (1642Newton's ( -1727 postulate in 1686 that the Figure of the Earth was, like that of Jupiter, an oblate spheroid, and that both the force of gravity (indicated by the length of a pendulum beating seconds) and the length of a 1-degree arc of latitude (θ), should increase towards the poles as sin 2 (θ). In 1737 his hypothesis was found, by measurement of arc lengths, to be correct.…”

Section: Introductionmentioning

confidence: 99%

Gravity Surveying in Early Geophysics. II. From Mountains to Salt Domes

Howarth

2007

Earth Sciences History

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Progress in measurement of the force of gravity and its contribution to the understanding of geology, and to exploration for oil and mineral deposits, from the eighteenth to the early twentieth century is reviewed. Initially, work focused on determination of the mean density of the Earth. Pendulum observations during the trigonometric survey of India (1805-43) revealed a low-density zone beneath the Himalayas and led to development of the Pratt and Airy compensation models in 1855, followed by Dutton's concept of isostatic compensation in 1889. Use of the Eötvös torsion balance (1889) to map the gravity field over an oil-bearing structure in 1915-16 heralded economic applications. By the 1920s, it was being widely used to search for oil-bearing salt domes, coal and mineral deposits. With the introduction of the gravity meter in the 1930s, the torsion balance fell into disuse and the modern era of gravity surveying and prospecting began. With the development of progressively more sensitive instruments, the gravity meter has retained its place, becoming an essential companion to 3-D seismic surveys and, with new instrumentation, gradiometry has seen a revival as an extremely powerful exploration tool.

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Cosmology and Theory of Weight

Strazzoni

2019

Studies in History and Philosophy of Science

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Gravity Surveying in Early Geophysics. I. From Time-Keeping to Figure of the Earth

Cited by 8 publications

References 29 publications

Atomic changes can map subterranean structures

Atomic changes can map subterranean structures

Gravity Surveying in Early Geophysics. II. From Mountains to Salt Domes

Cosmology and Theory of Weight

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