Their average increases by 36.6%
Matter is composed of molecules. These molecules move around. The movement stops only when a body of matter reaches absolute zero (about -253 degrees Celsius). The higher the temperature, the more movement. With movement increase, the distance between molecules increases, so the volume gets bigger.
the average kinetic energy triples
(-12) degrees Fahrenheit = -24.4 degrees Celsius.
A temperature of 99.8 degrees Celsius is equal to a temperature of 211.64 degrees Fahrenheit.
-10ºC
Because the slower molecules get, the colder it is. When molecules come completely to a stop (at zero movement), the temperature is -273.15 degrees Celsius.
Matter is composed of molecules. These molecules move around. The movement stops only when a body of matter reaches absolute zero (about -253 degrees Celsius). The higher the temperature, the more movement. With movement increase, the distance between molecules increases, so the volume gets bigger.
At 0°C enzyme action is low because the movement of molecules is low. This causes the collision frequency between enzyme and substrate to be low. Increasing the temperature speed up the movement of molecules and thus the collision frequency increases therefore enzyme action increases. Human bio enzymes work best at 37 degrees Celsius. As the temperature raises the shape of the enzyme changes and the enzyme becomes denatured. Temperature above 50 degrees Celsius will denature most human enzymes.
25 degrees Celsius.
Zero degrees Celsius.
35 degrees Celsius.
The Celsius temperature of 32 degrees Fahrenheit would be 0 degrees.
32 degrees Fahrenheit = 0 degrees Celsius
The conversion to degrees Celsius... 18.3
The temperature of the Exosphere ranges from 300 degrees Celsius to 1700 degrees Celsius.
the average kinetic energy triples
32 degrees Fahrenheit = 0 degrees Celsius.32 degrees Fahrenheit = 0 (zero) degrees Celsius