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Haslingfield

Civil parishes in CambridgeshireSouth Cambridgeshire DistrictVillages in Cambridgeshire
Haslingfield Scarecrow
Haslingfield Scarecrow

Haslingfield is a village and civil parish in South Cambridgeshire, England. The village is about six miles south-west of Cambridge, between Harston, Barton and Barrington. The population in the 2001 census was 1,550 people living in 621 households, reducing at the 2011 Census to a population of 1,507 living in 626 households. The main streets in the village are called High Street and New Road which together form an approximate circle around the Manor House. The village contains Haslingfield Primary School and All Saints Church. To find out more about what is going on in Haslingfield today see here

Excerpt from the Wikipedia article Haslingfield (License: CC BY-SA 3.0, Authors, Images).

Haslingfield
High Street, South Cambridgeshire

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Geographical coordinates (GPS)

Latitude Longitude
N 52.15 ° E 0.0533 °
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Address

High Street

High Street
CB23 1JP South Cambridgeshire
England, United Kingdom
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Ryle Telescope
Ryle Telescope

The Ryle Telescope (named after Martin Ryle, and formerly known as the 5-km Array) was a linear east-west radio telescope array at the Mullard Radio Astronomy Observatory. In 2004, three of the telescopes were moved to create a compact two-dimensional array of telescopes at the east end of the interferometer. The eight antennas have now become the Arcminute Microkelvin Imager Large Array. The Ryle Telescope was an eight-element interferometer operating at 15 GHz (2cm wavelength). The elements were equatorially mounted 13-m Cassegrain antennas, on an (almost) east-west baseline. Four aerials were mounted on a 1.2 km rail track, and the others were fixed at 1.2 km intervals. Baselines between 18 m and 4.8 km were therefore available, in a variety of configurations. For high-resolution imaging, the mobile aerials were arranged along the track, to give uniform baseline coverage to 4.8 km; for low-brightness astronomy (e.g. the Sunyaev-Zel'dovich effect) the mobile aerials were arranged in a 'compact array', with a maximum baseline of about 100 m. All antenna pairs were correlated, so some long baseline data were always available, even in the 'compact array' configuration. As the telescope was an east-west instrument, most imaging observations involved 12-hour observations in order to fill the synthesised aperture (calibration observations are routinely interleaved). Another consequence of the geometry was that it is not practical to image sources near the equator, or in the south. The two-dimensional Large Array overcomes this problem with its new north-south baselines. Although the telescope was not designed as a common user instrument, the operators were happy to accept proposals for observing time on the instrument from outside observers, provided that they did not overlap substantially with existing observing programmes, on a 'best efforts' basis. Monitoring variable sources was possible using short observations which could often be inserted between longer 'standard' observations. The telescope had three main scientific programs: study of the Sunyaev-Zel'dovich effect in galaxy clusters, particularly in determining the Hubble constant; surveying for radio sources that would contaminate degree-scale observations of the cosmic microwave background made with the Very Small Array, and flux monitoring of galactic variable sources.