heat will flow from the iron to the water until both are the same temperature
um, 17 degrees C
8 - 12 = -4
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To convert from degrees Celsius to Kelvin, add 273.15. Therefore, 73 K is 346.15 degrees C. Incidentally, Kelvin is an absolute scale, so the term "degree" is dropped from the units.
Oh, dude, let me blow your mind with this super complex math problem. So, like, 17 degrees Celsius is equal to 62.6 degrees Fahrenheit. I know, I know, it's mind-blowing how I just casually dropped that knowledge bomb on you. You're welcome.
The temperature dropped by 11 degrees Celsius.
um, 17 degrees C
-17 degrees Celsius. By subtracting 10 from -7, you get -17.
28
8 - 12 = -4
The lowest temperature that was recorded in Norway was on January 1st of 1886. Temperatures dropped to -51.4 degrees Celsius equalling -60.52 degrees Fahrenheit.
The speed of sound is given by the formula v = 331.5 + .6T, where T is the temperature of the air in degrees Celsius. If T were negative, then you would simply have a speed of sound less than 331.5 m/s. For example, if T = -5 degrees Celsius, thenv = 331.5 + .6*-5 = 328.5 m/sThere really isn't anything magic about an air temperature of 0 degrees Celsius. Zero degrees Celsius is the temperature at which water freezes, but nothing particularly interesting happens to _air_ at that temperature.
It is absolute zero and all molecular motion stops
Ah, let's paint a happy little conversion here. To find the temperature in Fahrenheit, we simply multiply the Celsius temperature by 1.8 and then add 32. So, 2 degrees Celsius is about 35.6 degrees Fahrenheit, and 8 degrees Celsius is about 46.4 degrees Fahrenheit. Remember, every temperature is just a different color on the beautiful canvas of life.
Just as soon as its temperature has dropped to 32 degrees (Fahrenheit, or 0° Celsius), and the heat of fusion has leaked out of it, it solidifies, I guarantee.
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To find the final temperature, we can use the principle of conservation of energy: heat lost by gold = heat gained by water. We can use the formula m * c * ∆T to calculate the heat exchanged. By setting the two heat exchanges equal to each other and solving for the final temperature, we can find that the final temperature is 25.9 degrees Celsius.