Eardley-Wilmot baronets

The Eardley-Wilmot Baronetcy, of Berkswell Hall in the County of Warwick, is a title in the Baronetage of the United Kingdom. It was created on 23 August 1821 for the politician and colonial administrator John Eardley-Wilmot. He was Lieutenant-Governor of Van Diemen's Land from 1843 to 1846. Eardley-Wilmot was the son of John Wilmot (1750 – June 1815), barrister-at-law and one of the Masters-in-Chancery, who in 1812 had assumed by royal licence the additional surname of Eardley as the great-grandson of Elizabeth, sole heiress of Edward Eardley, of Eardley, Staffordshire, and the grandson of John Eardley Wilmot, Chief Justice of the Common Pleas from 1766 to 1771. The second baronet was a judge and also sat as Conservative Member of Parliament for Warwickshire South. Another member of the family to gain distinction was Frederick Marow Eardley-Wilmot, second son of the first baronet. He was a Major-General in the army.

Sir John Eardley-Wilmot, 1st Baronet

The Eardley-Wilmot family shares a common ancestry with the Wilmot baronets of Osmaston and the Wilmot baronets of Chaddesden.

Eardley-Wilmot baronets, of Berkswell Hall (1821)

The heir apparent to the baronetcy is Arlo Timothy Eardley-Wilmot (born 2012), the son of the 7th Baronet.

gollark: Oh, right. That would have been easier than doing it by hand.
gollark: Did you just randomly decide to calculate that?
gollark: Well, you can, or also "it would have about the same mass as the atmosphere".
gollark: Wikipedia says that spider silk has a diameter of "2.5–4 μm", which I approximated to 3μm for convenience, so a strand has a 1.5μm radius. That means that its cross-sectional area (if we assume this long thing of spider silk is a cylinder) is (1.5e-6)², or ~7e-12. Wikipedia also says its density is about 1.3g/cm³, which is 1300kg/m³, and that the observable universe has a diameter of 93 billion light-years (8.8e26 meters). So multiply the length of the strand (the observable universe's diameter) by the density of spider silk by the cross-sectional area of the strand and you get 8e18 kg, while the atmosphere's mass is about 5e18 kg, so close enough really.
gollark: Okay, so by mass it actually seems roughly correct.

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References

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