The specific heat of water is 4.184 J / (g * degree C), higher than any other common substance. Use this fact, along with the equation Q = mc(change in T) where Q is heat in Joules, m is the mass of water in g, c is the specific heat of water, and T is the temperature.
The change in temperature is 25 degrees Celsius, meaning it takes 22.48 joules per degree of change. The specific heat of iron is 0.449 J/g degree Celsius. This means that the mass of iron must be 50.07 grams
18 To 22 degree.
to a degree but you can have more temperature resistant spores Yes, because virus' cannot survive beyond certain temperatures.
the temperature measured on the laboratory thermometer is from-10degree Celsius to 110 degree Celsius
To lower the temperature of 1 gram of water by 1 degree Celsius would be to remove 1 calorie.
The Fahrenheit scale change of 1 degree is smallest when compared to Celsius change. 1.8 degrees Celsius is 1 degree Fahrenheit
Celsius degrees are larger.
No, it is not. A Celsius degree equals 1.8 Fahrenheit degrees.
It is a 7 degree change.It is a 7 degree change.It is a 7 degree change.It is a 7 degree change.
A 16 degree increase !
One degree Celsius indicates the same temperature change as one kelvin.
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A change of one degree Celsius indicates the same temperature change as a change of (B) one Kelvin. (Isn't it easier to say that Kelvins are the same size as Celsius degrees ?)
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
The following changes are equal:1 Celsius degree.1.8 Fahrenheit degree.1 Kelvin.
heat strain or the thermal strain is caused due to the temperature changes. A solid body expands as the temperature increases and contracts as the temperature decreases.this causes the thermal strain. for a homogeneous and isotropic body the thermal strain is caused by change in temperature. thermal strain = coefficient of linear thermal expansion * change in temperature where the coefficient of linear thermal expansion gives the strain per degree of temperature.
14 degree increase