Joukje Postma
Joukje Postma (born 3 February 1877 in Midlum) was a Dutch female kortebaanschaatsen speed skater.[1]
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| Personal information | |
|---|---|
| Born | 3 February 1877 Midlum, Netherlands |
| Sport | |
| Country | Netherlands |
| Sport | Speed skating (kortebaanschaatsen) |
Postma was born in Midlum. She won her first race in December 1890. In total she won 9 prices, 5 premiums and 2 gratifications. The prices were money but also a wide golden ear iron and medal. Her last race was in 1899 in Leeuwarden where she won the ear iron. According to her parents she finished the 160 meters lane in 14 seconds; she didn’t believe it herself and thought it had to be around 17 seconds.
Achievements
- 1890-91
- 1st prize - 22 December 1890 in Berlikum, men/women competition
- 1891-92
- gratification (f 5,-) - 11 January 1892 in Leeuwarden
- 1894-95
- premium (f 7,5) - 23 January 1895 in Wijnaldum
- prize (f 12,-) - 28 January 1895 in Hardegarijp
- prize (f 15,-) - 29 January 1895 in Jellum
- gratification (f 2,5) - 2 February 1895 in Zoutkamp
- premium (f 25,-) - 11 February 1895 on the “stadsgracht” in Leeuwarden, competition with 31 riders
- prize (f 20,-) - 13 February 1895 in Sloten
- prize (f 100,- and a silver medal) - 16 February 1895 in Leeuwarden, competition of 41 riders
- 1896-97
- premium (f 10,-) - 28 December 1896 in Grijpskerk
- prize (f 20,-) - 17 January 1897 in Sijbrandaburen
- prize (f 35,-) - 22 January 1897 in Sneek
- premium (f 10,-) - 26 January 1897 in Franeker
- 1898-99
- prize (wide golden iron ear) - 3 February 1899 in Leeuwarden, competition of 29 riders
gollark: > The Planck time is the unique combination of the gravitational constant G, the special-relativistic constant c, and the quantum constant ħ, to produce a constant with dimension of time. Because the Planck time comes from dimensional analysis, which ignores constant factors, there is no reason to believe that exactly one unit of Planck time has any special physical significance. Rather, the Planck time represents a rough time scale at which quantum gravitational effects are likely to become important. This essentially means that while smaller units of time can exist, they are so small their effect on our existence is negligible. The nature of those effects, and the exact time scale at which they would occur, would need to be derived from an actual theory of quantum gravity.
gollark: Oh, no, never mind, that's not it.
gollark: ... you mean the Planck time or something?
gollark: Actually, picolightyears sounds better as light picoyears.
gollark: Or maybe just light nanoseconds or something.
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