Willow Grove Cemetery, New Brunswick

The Willow Grove Cemetery in New Brunswick, New Jersey is located behind the New Brunswick Free Public Library and the Henry Guest House. The cemetery runs along Morris Street, from Livingston Avenue to George Street. It is a contributing site of the Livingston Avenue Historic District.[1]

Willow Grove Cemetery
Details
Location
Morris Street, New Brunswick
Find a GraveWillow Grove Cemetery
Willow Grove Cemetery
Part ofLivingston Avenue Historic District (ID96000072)
Designated CPFebruary 16, 1996

The cemetery was originally a graveyard for Baptist and Presbyterian churches in the early 19th century. It is the burial place of several of the first Japanese exchange students to come to the United States, including Taro Kusakabe, a young samurai of Fukui and student of William Elliot Griffis, who studied at Rutgers University in the late 19th century and died there of tuberculosis.

Recently identified, New Brunswick Police Officer William I. Van Arsdale, died in the line of duty on December 7, 1856 at the age of 49 in a drowning in the Delaware Raritan Canal at the end of his shift. Officer Van Arsdale is the first known officer to die in the line of duty for the New Brunswick Police Department, New Jersey.

View of the Henry Guest House from the cemetery, 2018.

Notable burials

  • Taro Kusakabe (1845–1870), samurai, Rutgers student
  • John Munroe (1796–1861), military Governor of New Mexico
gollark: Does it doing combustion count as *on* fire?
gollark: There would be significant legal issues and also quite likely damage to the box.
gollark: Maybe you would be better off using quantum field theory. Except that doesn't have gravity/general relativity, only special relativity, so you should work out how to unify those?
gollark: We can just say in the technical and artistic merit video that "the robot's projectile trajectory handling maths has relativistic corrections in it and would thus be equipped to fire projectiles near the speed of light, if we actually needed that, had a way to accelerate things that fast, could do so without destroying everything, did not have interactions with the air to worry about, and could safely ignore quantum effects".
gollark: If you really want to you can apply special relativity, sure.

References

This article is issued from Wikipedia. The text is licensed under Creative Commons - Attribution - Sharealike. Additional terms may apply for the media files.