Temperatures on the graph typically range from 0°C to 100°C because these values represent the freezing and boiling points of water at standard atmospheric pressure. This range is crucial for many scientific and practical applications, especially in fields like chemistry and meteorology, where water is a fundamental substance. Additionally, these points help illustrate phase changes and the behavior of water in various states.
Under o 0C water is a solid; between 0 0C and 100 0C is a liquid; over 100 0C is a gas.
These temperatures are 0 0C and 100 0C.
Any Temperature after 0 0C until 100 0C where it turns into vapor.
The temperature range from 0°C to 100°C corresponds to the freezing and boiling points of water, which are commonly used as reference points on temperature scales. This range covers the typical temperatures that humans encounter in daily life, making it a convenient scale for general purposes like weather forecasting and cooking.
Examples: wolfram (3422 0C), rhenium (3186 0C), osmium (3033 0C), tantalum (3017 0C).
Under o 0C water is a solid; between 0 0C and 100 0C is a liquid; over 100 0C is a gas.
Under o 0C water is a solid; between 0 0C and 100 0C is a liquid; over 100 0C is a gas.
Under o 0C water is a solid; between 0 0C and 100 0C is a liquid; over 100 0C is a gas.
The melting point (only estimated, not determined) of rutherfordium is 2 100 0C.
By heating above 100 0C (at standard pressure) or by freezing below 0 0C.
These temperatures are 0 0C and 100 0C.
Any Temperature after 0 0C until 100 0C where it turns into vapor.
The melting point of water (ice) is 0 0C. The boiling point of water is 100 0C.
Boiling point: 100 0C Freezing point: 0 0C (and 0,01 0C based on the triple point of water)
At standard atmospheric pressure the boiling point of water is 100 0C; the freezing point is at 0 0C.
After 100 0C at standard pressure water become a gas.
Above 100 0C water become a gas.