A temperature of 20 degrees Fahrenheit is equal to a temperature of -6.67 degrees Celsius.
Take the higher from the lower temperature to find the difference.
28 degrees Celsius
As a tire goes round and round heat builds up inside the heat expands the air inside the tire. On a normal day that he can dissipate but as the temperature on the outside increases is more difficult for the heat (energy) to leave the inside of the tire. As the temperature increases the pressure inside the tire also increases. It is that pressure that can cause the tire to explode.
64.4 - 68 f
Difference in volume = (initial volume) (coefficient of volume expansion of water) (difference in temperature) coefficient of volume expansion of water=0.0002ml/degree celsius (not sure about the value. Better get help from a teacher.)
The highest temperature is 303 kelvin.
No. Room temperature is 20C, and Mercury is liquid at this. Gallium melts slightly higher, and will liquify in someone's hand or in hotter climates.Caesium has a melting point of 29C. So this metal will also be liquid in a hot day!Only one, mercury, at standard temperature and pressure. Gallium would be liquid in a hot room.
From -20C to 50 C From -20C to 50 C
20c
Reptiles are cold blooded and require the atmospheric heat to regulate their internal body temperature. If the outside temperature were to decrease by 20 c the internal temperature of the reptile would decrease 20C.
about 20c and 30c
68F=20C
20c
-20ºC = -4ºF
Between 20C
As a tire goes round and round heat builds up inside the heat expands the air inside the tire. On a normal day that he can dissipate but as the temperature on the outside increases is more difficult for the heat (energy) to leave the inside of the tire. As the temperature increases the pressure inside the tire also increases. It is that pressure that can cause the tire to explode.
lowest -140c highest +20c
Lows of -87C to highs of 20C
64.4 - 68 f