Solubility expresses the ability of a substance to dissolve in water.
Below zero C, you have ice.
Above 100 C, you have steam.
In either case, you no longer have water, so the question of solubility is moot.
The x value and the y value are directly and invertly related on a graph. This only occurs in a specific type of graph called a proportional graph.
It's difficult to make out enough detail to formulate an answer. Not only can't I see the numbers below the graph, I can't even see the graph.
Scatter plot
A medical thermometer only has a range of 35 to 42 celsius, as that is the only realistic temperature range that the human body will be in between. This is because, if anyone is below 35 celsius, or above 42 celsius, then they will be dead, or close to dying, and you don't need a thermometer to recognize either of these symptoms.
Because those limits will cover the temperature of most humans. 34oC is only 93.2oF and 41oC is 105.8oF. The 'normal' temperature for a healthy adult is 37oC or 98.4oF - which falls roughly half-way between the upper and lower limits of a clinical thermometer. Below 34C and above 41C one is in danger of death so help is needed immediately and there is no need in early diagnosis to know temperatures below or above that
Solubility values are typically provided for the 0-100°C range because water's properties change significantly outside this range. At temperatures beyond 100°C, water transitions to steam, altering its solvent properties. Below 0°C, water forms ice, which can affect solubility dynamics. This range is thus a standard reference point for solubility measurements.
Lead(II) sulfate (PbSO4) is one of the least soluble compounds at 40 degrees Celsius. It has a solubility of only 0.016 g/L at this temperature.
No, hydrochloric acid is a clear, colorless liquid at room temperature (20 degrees Celsius). It only becomes a solid at extremely low temperatures, below -26 degrees Celsius.
Yes, it can snow in negative temperatures. Snow can form and fall when the air temperature is below freezing, which is typically below 0 degrees Celsius or 32 degrees Fahrenheit.
It is not cold in Melbourne. Summer time temperatures range between mid 20's to mid 40's celsius, autumn and spring temperatures range from mid teens to mid 20's celsius. Winter temperatures rarely get as low as single digit and it has only snowed once during my life, in 1987.
At 40 degrees Celsius, the solubility of Pb(NO3)2 in water is about 228 g/L. Since you are adding 500 grams of Pb(NO3)2 and the solubility limit is 228 g/L, only 228 grams will dissolve, and the remaining 272 grams will stay undissolved.
Australia officially adopted the Celsius scale under the Metric Act of June 12, 1970. Beginning in September, 1972, temperatures used for official purposes were changed, and by May, 1979, all weather forecasts and other public uses were given only in Celsius degrees.
Yes, mercury is a liquid at 150 degrees Celsius. Mercury is a unique element that remains in liquid form at normal room temperature and only solidifies at temperatures below -38.83 degrees Celsius.
At approximately -12.3 °F the equivalent temperature in Celsius is -24.6 °C. This is the only temperature at which the value of the temperature in Celsius is double that of the equivalent Fahrenheit temperature. To be more precise, the temperatures are -12 4/13 °F and -24 8/13 °C.
Solubility is only defined in liquids, so if frozen it doesn't say a word
It depends on what you are graphing and the domain. If you are tracking daily temperature in your town, for example, the only difference will be in the y-intercept: that is how high or low your graph is. If you must show the origin on the chart, though, the vertical scale will be much greater. If graphing some aspect of thermodynamics, the Kelvin graph should be simpler because it is likely to go through the origin.
At the summit temperatures can drop to around -60 degree celcius! Other times, there's usually an average of -36 degrees celsius. In July, the warmest month, temperatures are still only -19 degrees.