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zolder
Sjabloon:Temperatuurschaalconversie
Linktabel
bewerken
persoon
land
jaar
schaal
C
Anders Celsius
Zweden
1742
Celsius
D
Joseph-Nicolas Delisle
Frankrijk
1732
Delisle
F
Gabriel Fahrenheit
Polen
/
Nederland
1724
Fahrenheit
T
William Thomson
Verenigd Koninkrijk
1848
Kelvin
N
Isaac Newton
Engeland
1700
rond 1700
Newton
Ra
William John Macquorn Rankine
Verenigd Koninkrijk
1859
Rankine
Ré
René-Antoine Ferchault de Réaumur
Frankrijk
1731
Réaumur
Rø
Ole Christensen Rømer
Denemarken
1701
Rømer
Conversie
bewerken
Tabel met
<math>
:
uit \ in
Celsius
Delisle
Fahrenheit
Kelvin
Newton
Rankine
Réaumur
Rømer
Celsius
T
C
=
{\displaystyle T_{\mathrm {C} }=}
100
−
T
D
⋅
2
3
{\displaystyle 100-T_{\mathrm {D} }\cdot {\tfrac {2}{3}}}
(
T
F
−
32
)
⋅
5
9
{\displaystyle \left(T_{\mathrm {F} }-32\right)\cdot {\tfrac {5}{9}}}
T
K
−
273
,
15
{\displaystyle T_{\mathrm {K} }-273{,}15\!}
T
N
⋅
100
33
{\displaystyle T_{\mathrm {N} }\cdot {\tfrac {100}{33}}}
(
T
R
a
−
491
,
67
)
⋅
5
9
{\displaystyle (T_{\mathrm {Ra} }-491{,}67)\cdot {\tfrac {5}{9}}}
T
R
e
⋅
5
4
{\displaystyle T_{\mathrm {Re} }\cdot {\tfrac {5}{4}}}
(
T
R
o
−
7
,
5
)
⋅
40
21
{\displaystyle (T_{\mathrm {Ro} }-7{,}5)\cdot {\tfrac {40}{21}}}
Delisle
T
D
=
{\displaystyle T_{\mathrm {D} }=}
(
100
−
T
C
)
⋅
3
2
{\displaystyle (100-T_{\mathrm {C} })\cdot {\tfrac {3}{2}}}
(
212
−
T
F
)
⋅
5
6
{\displaystyle (212-T_{\mathrm {F} })\cdot {\tfrac {5}{6}}}
(
373
,
15
−
T
K
)
⋅
3
2
{\displaystyle (373{,}15-T_{\mathrm {K} })\cdot {\tfrac {3}{2}}}
(
33
−
T
N
)
⋅
50
11
{\displaystyle (33-T_{\mathrm {N} })\cdot {\tfrac {50}{11}}}
(
671
,
67
−
T
R
a
)
⋅
5
6
{\displaystyle (671{,}67-T_{\mathrm {Ra} })\cdot {\tfrac {5}{6}}}
(
80
−
T
R
e
)
⋅
15
8
{\displaystyle (80-T_{\mathrm {Re} })\cdot {\tfrac {15}{8}}}
(
60
−
T
R
o
)
⋅
20
7
{\displaystyle (60-T_{\mathrm {Ro} })\cdot {\tfrac {20}{7}}}
Fahrenheit
T
F
=
{\displaystyle T_{\mathrm {F} }=}
T
C
⋅
9
5
+
32
{\displaystyle T_{\mathrm {C} }\cdot {\tfrac {9}{5}}+32}
212
−
T
D
⋅
6
5
{\displaystyle 212-T_{\mathrm {D} }\cdot {\tfrac {6}{5}}}
T
K
⋅
9
5
−
459
,
67
{\displaystyle T_{\mathrm {K} }\cdot {\tfrac {9}{5}}-459{,}67}
T
N
⋅
60
11
+
32
{\displaystyle T_{\mathrm {N} }\cdot {\tfrac {60}{11}}+32}
T
R
a
−
459
,
67
{\displaystyle T_{\mathrm {Ra} }-459{,}67\!}
T
R
e
⋅
9
4
+
32
{\displaystyle T_{\mathrm {Re} }\cdot {\tfrac {9}{4}}+32}
(
T
R
o
−
7
,
5
)
⋅
24
7
+
32
{\displaystyle \left(T_{\mathrm {Ro} }-7{,}5\right)\cdot {\tfrac {24}{7}}+32}
Kelvin
T
K
=
{\displaystyle T_{\mathrm {K} }=}
T
C
+
273
,
15
{\displaystyle T_{\mathrm {C} }+273,15\!}
373
,
15
−
T
D
⋅
2
3
{\displaystyle 373{,}15-T_{\mathrm {D} }\cdot {\tfrac {2}{3}}}
(
T
F
+
459
,
67
)
⋅
5
9
{\displaystyle \left(T_{\mathrm {F} }+459{,}67\right)\cdot {\tfrac {5}{9}}}
T
N
⋅
100
33
+
273
,
15
{\displaystyle T_{\mathrm {N} }\cdot {\tfrac {100}{33}}+273{,}15}
T
R
a
⋅
5
9
{\displaystyle T_{\mathrm {Ra} }\cdot {\tfrac {5}{9}}}
T
R
e
⋅
5
4
+
273
,
15
{\displaystyle T_{\mathrm {Re} }\cdot {\tfrac {5}{4}}+273{,}15}
(
T
R
o
−
7
,
5
)
⋅
40
21
+
273
,
15
{\displaystyle (T_{\mathrm {Ro} }-7{,}5)\cdot {\tfrac {40}{21}}+273{,}15}
Newton
T
N
=
{\displaystyle T_{\mathrm {N} }=}
T
C
⋅
33
100
{\displaystyle T_{\mathrm {C} }\cdot {\tfrac {33}{100}}}
33
−
T
D
⋅
11
50
{\displaystyle 33-T_{\mathrm {D} }\cdot {\tfrac {11}{50}}}
(
T
F
−
32
)
⋅
11
60
{\displaystyle (T_{\mathrm {F} }-32)\cdot {\tfrac {11}{60}}}
(
T
K
−
273
,
15
)
⋅
33
100
{\displaystyle (T_{\mathrm {K} }-273{,}15)\cdot {\tfrac {33}{100}}}
(
T
R
a
−
491
,
67
)
⋅
11
60
{\displaystyle (T_{\mathrm {Ra} }-491{,}67)\cdot {\tfrac {11}{60}}}
T
R
e
⋅
33
80
{\displaystyle T_{\mathrm {Re} }\cdot {\tfrac {33}{80}}}
(
T
R
o
−
7
,
5
)
⋅
22
35
{\displaystyle (T_{\mathrm {Ro} }-7{,}5)\cdot {\tfrac {22}{35}}}
Rankine
T
R
a
=
{\displaystyle T_{\mathrm {Ra} }=}
T
C
⋅
9
5
+
491
,
67
{\displaystyle T_{\mathrm {C} }\cdot {\tfrac {9}{5}}+491{,}67}
671
,
67
−
T
D
⋅
6
5
{\displaystyle 671{,}67-T_{\mathrm {D} }\cdot {\tfrac {6}{5}}}
T
F
+
459
,
67
{\displaystyle T_{\mathrm {F} }+459{,}67\!}
T
K
⋅
9
5
{\displaystyle T_{\mathrm {K} }\cdot {\tfrac {9}{5}}}
T
N
⋅
60
11
+
491
,
67
{\displaystyle T_{\mathrm {N} }\cdot {\tfrac {60}{11}}+491{,}67}
(
T
R
e
⋅
5
4
−
273
,
15
)
⋅
9
5
{\displaystyle (T_{\mathrm {Re} }\cdot {\tfrac {5}{4}}-273{,}15)\cdot {\tfrac {9}{5}}}
(
T
R
o
−
7
,
5
)
⋅
24
7
+
491
,
67
{\displaystyle (T_{\mathrm {Ro} }-7{,}5)\cdot {\tfrac {24}{7}}+491{,}67}
Réaumur
T
R
e
=
{\displaystyle T_{\mathrm {Re} }=}
T
C
⋅
4
5
{\displaystyle T_{\mathrm {C} }\cdot {\tfrac {4}{5}}}
80
−
T
D
⋅
8
15
{\displaystyle 80-T_{\mathrm {D} }\cdot {\tfrac {8}{15}}}
(
T
F
−
32
)
⋅
4
9
{\displaystyle \left(T_{\mathrm {F} }-32\right)\cdot {\tfrac {4}{9}}}
(
T
K
−
273
,
15
)
⋅
4
5
{\displaystyle (T_{\mathrm {K} }-273{,}15)\cdot {\tfrac {4}{5}}}
T
N
⋅
80
33
{\displaystyle T_{\mathrm {N} }\cdot {\tfrac {80}{33}}}
(
T
R
a
⋅
5
9
+
273
,
15
)
⋅
4
5
{\displaystyle (T_{\mathrm {Ra} }\cdot {\tfrac {5}{9}}+273{,}15)\cdot {\tfrac {4}{5}}}
(
T
R
o
−
7
,
5
)
⋅
32
21
{\displaystyle (T_{\mathrm {Ro} }-7{,}5)\cdot {\tfrac {32}{21}}}
Rømer
T
R
o
=
{\displaystyle T_{\mathrm {Ro} }=}
T
C
⋅
21
40
+
7
,
5
{\displaystyle T_{\mathrm {C} }\cdot {\tfrac {21}{40}}+7{,}5}
60
−
T
D
⋅
7
20
{\displaystyle 60-T_{\mathrm {D} }\cdot {\tfrac {7}{20}}}
(
T
F
−
32
)
⋅
7
24
+
7
,
5
{\displaystyle \left(T_{\mathrm {F} }-32\right)\cdot {\tfrac {7}{24}}+7{,}5}
(
T
K
−
273
,
15
)
⋅
21
40
+
7
,
5
{\displaystyle (T_{\mathrm {K} }-273{,}15)\cdot {\tfrac {21}{40}}+7{,}5}
T
N
⋅
35
22
+
7
,
5
{\displaystyle T_{\mathrm {N} }\cdot {\tfrac {35}{22}}+7{,}5}
(
T
R
a
−
7
,
5
)
⋅
24
7
+
491
,
67
{\displaystyle (T_{\mathrm {Ra} }-7{,}5)\cdot {\tfrac {24}{7}}+491{,}67}
T
R
e
⋅
21
32
+
7
,
5
{\displaystyle T_{\mathrm {Re} }\cdot {\tfrac {21}{32}}+7{,}5}
Tabel met
{{math}}
:
uit \ in
Celsius
Delisle
Fahrenheit
Kelvin
Newton
Rankine
Réaumur
Rømer
Celsius
T
C
=
100 −
T
D
·
2
/
3
(
T
F
− 32) ·
5
/
9
T
K
− 273,15
T
N
·
100
/
33
(
T
Ra
− 491,67) ·
5
/
9
T
Ré
·
5
/
4
(
T
Rø
− 7,5) ·
40
/
21
Delisle
T
D
=
(100 −
T
C
) ·
3
/
2
(212 −
T
F
) ·
5
/
6
(373,15 −
T
K
) ·
3
/
2
(33 −
T
N
) ·
50
/
11
(671,67 −
T
Ra
) ·
5
/
6
(80 −
T
Ré
) ·
15
/
8
(60 −
T
Rø
) ·
20
/
7
Fahrenheit
T
F
=
T
C
·
9
/
5
+ 32
212 −
T
D
·
6
/
5
T
K
·
9
/
5
− 459,67
T
N
·
60
/
11
+ 32
T
Ra
− 459,67
T
Ré
·
9
/
4
+ 32
(
T
Rø
− 7,5) ·
24
/
7
+ 32
Kelvin
T
K
=
T
C
+ 273,15
373,15 −
T
D
·
2
/
3
(
T
F
+ 459,67) ·
5
/
9
T
N
·
100
/
33
+ 273,15
T
Ra
·
5
/
9
T
Ré
·
5
/
4
+ 273,15
(
T
Rø
− 7,5) ·
40
/
21
+ 273,15
Newton
T
N
=
T
C
·
33
/
100
33 −
T
D
·
11
/
50
(
T
F
− 32) ·
11
/
60
(
T
K
− 273,15) ·
33
/
100
(
T
Ra
− 491,67) ·
11
/
60
T
Ré
·
33
/
80
(
T
Rø
− 7,5) ·
22
/
35
Rankine
T
Ra
=
T
C
·
9
/
5
+ 491,67
671,67 −
T
D
·
6
/
5
T
F
+ 459,67
T
K
·
9
/
5
T
N
·
60
/
11
+ 491,67
(
T
Ré
·
5
/
4
− 273,15) ·
9
/
5
(
T
Rø
− 7,5) ·
24
/
7
+ 491,67
Réaumur
T
Ré
=
T
C
·
4
/
5
80 −
T
D
·
8
/
15
(
T
F
− 32) ·
4
/
9
(
T
K
− 273,15) ·
4
/
5
T
N
·
80
/
33
(
T
Ra
·
5
/
9
+ 273,15) ·
4
/
5
(
T
Rø
− 7,5) ·
32
/
21
Rømer
T
Rø
=
T
C
·
21
/
40
+ 7,5
60 −
T
D
·
7
/
20
(
T
F
− 32) ·
7
/
24
+ 7,5
(
T
K
− 273,15) ·
21
/
40
+ 7,5
T
N
·
35
/
22
+ 7,5
(
T
Ra
− 7,5) ·
24
/
7
+ 491,67
T
Ré
·
21
/
32
+ 7,5