A temperature change by one degree on Celsius scale equals temperature change of 1.8 degree on Fahrenheit scale
or F (Fahrenheit) = 1.8 C (Celsius) + 32
# include<stdio.h> main() { int a,b,c; print f("enter the values of a,b,c"); scan f("%d%d%d",&a,&b,&c); if((a>b)&&(a>c)) print f("Greatest value is a =%d",a); else if((b>a)&&(b>c)) print f("Greatest value is b=%d",b); else print f("Greatest value is c=%d",c); }
The formula, for any value is C = 5/9*(F - 32). Let F = -40 and solve for C.
No, that statement is not accurate. A change of 1 degree Celsius (°C) is equivalent to a change of 1 degree Kelvin (K) because both scales have the same incremental value. However, a change of 1 degree Fahrenheit (°F) is smaller than both, specifically, a change of 1 °F is approximately 0.56 °C or 0.56 K. Thus, 1 °C = 1 K > 1 °F.
To convert 37.0°C to Fahrenheit, you can use the formula ( F = \frac{9}{5}C + 32 ). Plugging in the value, ( F = \frac{9}{5} \times 37.0 + 32 ). This calculates to ( F = 66.6 + 32 = 98.6 ). Therefore, 37.0°C is equivalent to 98.6°F.
-40 As we have formula for converting temperature C= F-32x5/9 so if we put the value -40 in Fahrenheit C=-40-32x5/9 C=-72x5/9 C=-360/9 C=-40 and in other formula F=Cx9/5+32 so put the same value F=-40x9/5+32 F=-360/5+32 F=-72+32 F=-40 So here prove that -40C=-40F what is this in english i just have to ask
F= 9/5*c+32 =0 + 32 = 32°f.
98 deg F = 36.66... deg C.
4.44 C
# include<stdio.h> main() { int a,b,c; print f("enter the values of a,b,c"); scan f("%d%d%d",&a,&b,&c); if((a>b)&&(a>c)) print f("Greatest value is a =%d",a); else if((b>a)&&(b>c)) print f("Greatest value is b=%d",b); else print f("Greatest value is c=%d",c); }
C is for cost (value before shipping) and F is for freight/shipping.
The temperature at which the Celsius and Fahrenheit scales have the same value is -40 degrees, where -40°C is equal to -40°F.
lil tj
The formula, for any value is C = 5/9*(F - 32). Let F = -40 and solve for C.
Let f be differentiable on [a,b] and suppose that k is a number between f'(a) and f'(b). Then there exists a point c ε (a,b) such that f'(c)=k.
The boiling point of fluorine (F) is -188.12 degrees Celsius (-306.62 F). The boiling point of carbon (C) in the form of a diamond is about 4027 degrees Celsius (7281 F). This value will vary depending on how the carbon is formed.
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