Richard Dunthorne


Richard Dunthorne was an English astronomer and surveyor, who worked in Cambridge as astronomical and scientific assistant to Roger Long, and also concurrently for many years as surveyor to the Bedford Level Corporation.

Life and work

There are short biographical notes of Dunthorne, one in the Philosophical Transactions , another in the, and a third by W T Lynn. Dunthorne was born in humble circumstances in Ramsey, Cambridgeshire, where he attended the free grammar school. There he attracted the notice of Roger Long, whose protégé Dunthorne became. Dunthorne moved to Cambridge where Long first appointed him as a "footboy", and where he received some further education. Dunthorne then "managed" a preparatory school in Coggeshall, Essex, and later returned to Cambridge where Long obtained for him an appointment as a "butler" at Pembroke Hall, an office that Dunthorne retained for the rest of his life. Here Dunthorne's main activity seems to have been in assisting Long in astronomical and scientific work.
Dunthorne also held an appointment for some years, concurrently with his work with Long, as superintendent of works of the Bedford Level Corporation, responsible for water management in the Fens; he began this work several years" before 1761, continuing into the 1770s. In this role, Dunthorne was concerned in a survey of the fens in Cambridgeshire, and he also supervised construction of locks near Chesterton on the River Cam.
Dunthorne's association with Long remained lifelong, and in the end Dunthorne acted as executor of Long's will.

Lunar tables

Dunthorne published a book of astronomical tables in 1739 entitled Practical Astronomy of the Moon: or, new Tables... Exactly constructed from Sir Isaac Newton's Theory, as published by Dr Gregory in his Astronomy, London & Oxford, 1739. These tables were modelled on Isaac Newton's lunar theory of 1702, to facilitate testing Newton's theory.
In a 1746 letter to the keeper of Cambridge's Woodwardian Museum, Dunthorne wrote: "After I had compared a good Number of modern Observations made in different Situations of the Moon and of her Orbit in respect of the Sun, with the Newtonian Theory... I proceeded to examine the mean Motion of the Moon, of her Apogee, and Nodes, to see whether they were well represented by the Tables for any considerable Number of Years... "
On the basis of his observations, Dunthorne proposed some adjustments of the numerical terms of the theory.

Acceleration of the Moon

Dunthorne is particularly remembered for his study of the phenomenon of the changing apparent speed of the Moon in its orbit. Edmond Halley in about 1695 had already suggested on the basis of comparison between contemporary observations and on the other hand ancient records for the timing of ancient eclipses, that the Moon was very gradually accelerating in its orbit. Dunthorne's computations, based in part on records of ancient accounts of eclipses, confirmed the apparent acceleration; and he was the first to quantify the effect, which he put at +10" in terms of the difference of lunar longitude. Dunthorne's estimate is not far from those assessed later, e.g. in 1786 by de Lalande and still not very far away from the values from about 10" to nearly 13" being derived about a century later.

Astronomical publications and observations

Dunthorne published papers in the Philosophical Transactions, including "On the motion of the Moon", "On the acceleration of the Moon", and the letter "Concerning comets" in 1751. He observed the transits of Venus in 1761 and 1769, and also published tables on the motion of Jupiter's satellites in 1762.

Work for the Nautical Almanac

On 18 July 1765 the Board of Longitude appointed Dunthorne as the first "Comparer of the Ephemeris and Corrector of the Proofs" for the Nautical Almanac and Astronomical Ephemeris. The first issue appeared with data for the year 1767, breaking new ground in providing computational tools to enable mariners to use lunar observations to find their longitude at sea. Dunthorne worked as sole comparer for the first three issues, with data for 1767–69, and afterward continued as one of several comparers until the issue for 1776.
Dunthorne also contributed a method for clearing nautical lunar observations of the effects of refraction and parallax, for the purpose of finding the longitude at sea, and Maskelyne included this in his 'Tables requisite to be used with the Nautical Ephemeris', an accessory volume published to accompany the Nautical Almanac. It is also reported that Dunthorne in 1772 received from the Board of Longitude a reward of £50 for this contribution towards shortening the tedious calculations involved in "clearing the lunar distance". Improvements were added and "Dunthorne's improved method" was included in an edition of 1802.
In this area of celestial navigation, Dunthorne has been credited as the first to apply trigonometrical formulae for the general spherical triangle to the reduction of lunar distances and to give auxiliary tables for that purpose.

Benefactions in Cambridge

Dunthorne planned and funded the construction of an observatory in 1765. The observatory was situated on the Shrewsbury Gate of St. John's College. Dunthorne also gave astronomical instruments to the College. The observatory remained in place until its closure in 1859.
A contemporary, Rev. William Ludlam, described Dunthorne as one "who without the benefit of an Academical education is arrived at such a perfection in many branches of learning, and particularly in Astronomy, as would do honour to the proudest Professor in any University... he joined to a consummate excellence in his profession a generosity without limit in the exercise of it."
Dunthorne died at Cambridge. The crater Dunthorne on the Moon is named after him.

Dunthorne's publications


-- also given in Philosophical Transactions , as "On the Acceleration of the Moon, by the Rev. Richard Dunthorne".