Fahrenheit to Celsius Converter (Easily Convert °F to °C)

1°F = -17.22 °F

°C

°F

Fahrenheit to Celsius Chart​

Fahrenheit (°F)
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
Celsius (°C)
-17.22
-16.66
-16.11
-15.55
-15.00
-14.44
-13.88
-13.33
-12.77
-12.22
-11.66
-11.11
-10.55
-10.00
-9.44
-8.88
-8.33
-7.77
-7.22
-6.66
-6.11
-5.55
-5.00
-4.44
-3.88
-3.33
-2.77
-2.22
-1.66
-1.11
-0.55
0.00
0.55
1.11
1.66
2.22
2.77
3.33
3.88
4.44
5.00
5.55
6.11
6.66
7.22
7.77
8.33
8.88
9.44
10.00
10.55
11.11
11.66
12.22
12.77
13.33
13.88
14.44
15.00
15.55
16.11
16.66
17.22
17.77
18.33
18.88
19.44
20.00
20.55
21.11
21.66
22.22
22.77
23.33
23.88
24.44
25.00
25.55
26.11
26.66
27.22
27.77
28.33
28.88
29.44
30.00
30.55
31.11
31.66
32.22
32.77
33.33
33.88
34.44
35.00
35.55
36.11
36.66
37.22
37.77


1 Fahrenheit in other units​

Let us see, how much is 1 degree Fahrenheit (°F) in other units.

1 Fahrenheit (°F) is equals to
-17.22 Celsius (°C)
255.9 kelvin (K)
-13.78 Réaumer (°Re)
460.7 degrees Rankine (°R)
-5.683 degrees Newton (°N)
-1.542 degrees Rømer (°Rø)
175.8 degrees Delisle (°D)


How many Celsius is 1 Fahrenheit?​

Do you know how many Celsius is one Fahrenheit?

In other words,

1 Fahrenheit = (?) Celsius

It’s simple.

One Fahrenheit is equals to -17.22 Celsius.

Mathematically,

1 Fahrenheit = -17.22 Celsius

How to convert Fahrenheit to Celsius (°F to °C)?​

To convert Fahrenheit to Celsius, subtract 32 from the Fahrenheit value and then multiply it with (5/9).

(Fahrenheit value – 32) × (5/9)

For example, if you want to convert 100 degree Fahrenheit into Celsius, then you have to subtract 32 from it and then multiply it with (5/9).
i.e (100 – 32) × (5/9) = 37.75

Thus, we get 100 Celsius (°C) = 37.75 Fahrenheit (°F).

Important Fahrenheit to Celsius conversions are given below:

Few solved Fahrenheit to Celsius conversions

Few fahrenheit to celsius conversions are shown below (with calculations.)

Convert 95 degree fahrenheit to celsius:

The formula required for conversion is;

°C = (5/9) (°F – 32)

To convert 95 degree fahrenheit to celsius, subtract 32 from the fahrenheit value and then multiply it with 5 and divide it by 9. 

°C = (5/9) (95 – 32)

°C = (5/9) (63)

°C = 35

So, 95 °F = 35 °C.

Convert -40 degree fahrenheit to celsius:

The formula required for conversion is;

°C = (5/9) (°F – 32)

To convert -40 degree fahrenheit to celsius, subtract 32 from the fahrenheit value and then multiply it with 5 and divide it by 9. 

°C = (5/9) (-40 – 32)

°C = (5/9) (-72)

°C = -40

So, -40 °F = -40 °C.

Note: -40 degrees is the only value at which Fahrenheit temperature and Celsius temperature becomes equal.

Convert 320 degree fahrenheit to celsius:

The formula required for conversion is;

°C = (5/9) (°F – 32)

To convert 320 degree fahrenheit to celsius, subtract 32 from the fahrenheit value and then multiply it with 5 and divide it by 9. 

°C = (5/9) (320 – 32)

°C = (5/9) (288)

°C = 160

So, 320 °F = 160 °C.

Note: 320 degrees is the only value at which Celsius temperature becomes exactly half of the Fahrenheit temperature (i.e °C = (½) °F).

Methods of temperature measurements (2 methods)

This article is about the temperature measurement methods. Here we are going to discuss two different methods of temperature measurements. 1). Two reference point system 2). Single reference point system. You will come to know the entire method with a simple plain english explanation. So let’s get started. First of all we will discuss the first method. So in the two reference point system, we have to take two reference points. The first reference point is the ice point and the other reference point is the steam point. To proceed further with the two reference point system, we will take and equation; T = a + bP … Read more

What is temperature? (How to measure it?)

In this article, you will get the simple and conceptual explanation about the term “temperature”. I will also tell you how the temperature is measured? So let’s get started. Let me give you few examples first. Have you noticed that the food you eat is always very hot when it is freshly cooked. Have you noticed that the ice is very cold. But have you questioned yourself, what keeps things hot or cold? You might have also noticed that some things are hotter than others. For example the boiling water is hotter than water from the geyser. Also some things are colder than others. For example, ice is very very colder than cold water or cold drink kept in a refrigerator… Read more

Difference between Temperature and heat (Explained with concept)

Before I explain to you the difference between temperature and heat, I want to give you some basic concept of the same. Let’s start directly with an example. Do you know what happens when we heat the water? If we heat the water then it’s temperature rises and after some time it will evaporate. Isn’t it? So what has happened here? We have applied the heat to the water and due to this, the state of water changed from liquid state to vapor state (gaseous state). Similarly by the application of heat, the solid substance can also turn into liquid. For example, Ice. Ice is a solid substance, but when we apply heat to the ice, its state changes from solid to liquid. Now I want to explain to you the reverse case… Read more

Effect of temperature (On states of matter)

Have you ever seen water being converted into steam? Have you noticed that ice is made up of water only. I guess you are familiar with these examples. But here you will come to exactly how this process occurs and how temperature is responsible for the change in state of the matter. So let’s get started. Generally the state of matter can be changed by two ways, 1). By changing the temperature and 2). By changing the pressure. Here we will study how temperature affects the state of matter. We can either increase the temperature of any substance or decrease its temperature. By doing so, we can easily change the state of matter. Read more

Leave a Comment